Single cell optical imaging and spectroscopy.

In his 1665 treatise, Micrographia, Robert Hooke described the many observations he had made using a microscope, including compartment-like structures in cork samples that he termed ‘cells’.1 In the three and a half centuries since Hooke’s day, both the microscope and our understanding of the cell have been vastly improved upon, and the current outlook suggests that the symbiotic relationship between the microscope and the cell will continue to flourish into the foreseeable future. The cell is a basic yet complicated ‘unit’ of interest to biology, just as the atom is to chemists. Ultimately, scientists want to ‘see to believe’ when it comes to an explanation of the complex inner workings of cells, but therein lies a complication. Seeing is not always a possibility in biological systems. Size, speed, sensitivity, and additional concerns plague the microscopist who wants to peek inside of a cell. Enter a variety of molecular and nanoparticle probes that are capable of tagging and pinpointing the location of biological components that would otherwise be invisible under the microscope. Advances in laser, camera, and imaging processing technologies have also played a crucial role in the burgeoning field of single cell imaging, because they have brought into view the fast processes that would normally escape the human eye. The purpose of this review is to highlight the key advances that have occurred in the past several years in the field of single cell optical imaging. It is not our intent to provide a comprehensive review of the types of experiments or the areas of cell research that are ongoing. Reviews with a distinctly biological flavor have been published recently, and these alternative reviews focus on specific details of the cell and the processes that occur within.2-7 Likewise, exceptional review papers that have discussed the full spectrum of nanoparticle probes and their properties have appeared recently.6-12 This review is designed to give an overview of the tools that are being specifically used to accomplish single cell imaging. As such, much of our emphasis in the first several sections of this paper is on imaging platforms, with a focus on design details that are important to single cell imaging experiments. Next we emphasize specific imaging experiments that highlight the types of findings that are possible at the nexus of microscopy, nanoprobes, and live cells. Particular attention is paid to the emerging orientation and rotational tracking of single probes linked to mechanistic functions and differentiated structures of biological interest. Finally, we provide a brief, yet rather complete, summary of single cell manipulation techniques.

[1]  R. Jernigan,et al.  Revealing rotational modes of functionalized gold nanorods on live cell membranes. , 2013, Small.

[2]  Hans-Gerd Löhmannsröben,et al.  Six-color time-resolved Förster resonance energy transfer for ultrasensitive multiplexed biosensing. , 2013, Journal of the American Chemical Society.

[3]  Lauren A Austin,et al.  Real-time molecular imaging throughout the entire cell cycle by targeted plasmonic-enhanced Rayleigh/Raman spectroscopy. , 2012, Nano letters.

[4]  Lu Wei,et al.  Extending the fundamental imaging-depth limit of multi-photon microscopy by imaging with photo-activatable fluorophores. , 2012, Optics express.

[5]  Shaoqun Zeng,et al.  PALMER: a method capable of parallel localization of multiple emitters for high-density localization microscopy. , 2012, Optics express.

[6]  Yury Gogotsi,et al.  Nanoprobes for intracellular and single cell surface-enhanced Raman spectroscopy (SERS) , 2012 .

[7]  Lei Zhu,et al.  Faster STORM using compressed sensing , 2012, Nature Methods.

[8]  J. Nolan,et al.  Single cell analysis using surface enhanced Raman scattering (SERS) tags. , 2012, Methods.

[9]  Peter Dedecker,et al.  Widely accessible method for superresolution fluorescence imaging of living systems , 2012, Proceedings of the National Academy of Sciences.

[10]  B. Reinhard,et al.  Quantification of differential ErbB1 and ErbB2 cell surface expression and spatial nanoclustering through plasmon coupling. , 2012, Nano letters.

[11]  Gufeng Wang,et al.  Influence of polarization setting on gold nanorod signal at nonplasmonic wavelengths under differential interference contrast microscopy. , 2012, Analytical chemistry.

[12]  H. Ewers,et al.  A simple, versatile method for GFP-based super-resolution microscopy via nanobodies , 2012, Nature Methods.

[13]  Y. S. Zhou,et al.  Surface-enhanced Raman spectroscopy using gold-coated horizontally aligned carbon nanotubes , 2012, Nanotechnology.

[14]  X. Zhuang,et al.  Statistical deconvolution for superresolution fluorescence microscopy. , 2012, Biophysical journal.

[15]  Igor K Lednev,et al.  UV resonance Raman investigations of peptide and protein structure and dynamics. , 2012, Chemical reviews.

[16]  Vladislav V Verkhusha,et al.  An orange fluorescent protein with a large Stokes shift for single-excitation multicolor FCCS and FRET imaging. , 2012, Journal of the American Chemical Society.

[17]  Lingxin Chen,et al.  Biocompatible triplex Ag@SiO2@mTiO2 core-shell nanoparticles for simultaneous fluorescence-SERS bimodal imaging and drug delivery. , 2012, Chemistry.

[18]  Emily A. Smith,et al.  Near IR scanning angle total internal reflection Raman spectroscopy at smooth gold films. , 2012, Analytical chemistry.

[19]  Julian Moger,et al.  Exploring uptake mechanisms of oral nanomedicines using multimodal nonlinear optical microscopy , 2012, Journal of biophotonics.

[20]  E. Yeung,et al.  Unsynchronized translational and rotational diffusion of nanocargo on a living cell membrane. , 2012, Angewandte Chemie.

[21]  Zhuang Liu,et al.  Noble metal coated single-walled carbon nanotubes for applications in surface enhanced Raman scattering imaging and photothermal therapy. , 2012, Journal of the American Chemical Society.

[22]  Moshe Levi,et al.  Characterization of cholesterol crystals in atherosclerotic plaques using stimulated Raman scattering and second-harmonic generation microscopy. , 2012, Biophysical journal.

[23]  Wei Sun,et al.  Three-dimensional super-localization and tracking of single gold nanoparticles in cells. , 2012, Analytical chemistry.

[24]  Yukihiro Ozaki,et al.  Inhibition assay of yeast cell walls by plasmon resonance Rayleigh scattering and surface-enhanced Raman scattering imaging. , 2012, Langmuir : the ACS journal of surfaces and colloids.

[25]  Delong Zhang,et al.  Label-free imaging of lipid-droplet intracellular motion in early Drosophila embryos using femtosecond-stimulated Raman loss microscopy. , 2012, Biophysical journal.

[26]  Qiang Ni,et al.  Parallel tracking of cAMP and PKA signaling dynamics in living cells with FRET-based fluorescent biosensors. , 2012, Molecular bioSystems.

[27]  J. Vela,et al.  High-precision tracking with non-blinking quantum dots resolves nanoscale vertical displacement. , 2012, Journal of the American Chemical Society.

[28]  Erik S. Welf,et al.  Migrating fibroblasts reorient directionality by a metastable, PI3K-dependent mechanism , 2012, The Journal of cell biology.

[29]  Gang Bao,et al.  Quantum dot-fluorescent protein FRET probes for sensing intracellular pH. , 2012, ACS nano.

[30]  J. Popp,et al.  Bioanalytical application of surface‐ and tip‐enhanced Raman spectroscopy , 2012 .

[31]  Minhua Qiu,et al.  Dynamic reorganization of Eg5 in the mammalian spindle throughout mitosis requires dynein and TPX2 , 2012, Molecular biology of the cell.

[32]  J. Dionne,et al.  Quantum plasmon resonances of individual metallic nanoparticles , 2012, Nature.

[33]  Yves F Dufrêne,et al.  Single-molecule imaging of cell surfaces using near-field nanoscopy. , 2012, Accounts of chemical research.

[34]  Toshio Yanagida,et al.  Fluorescence microscopy for simultaneous observation of 3D orientation and movement and its application to quantum rod-tagged myosin V , 2012, Proceedings of the National Academy of Sciences.

[35]  M. Davidson,et al.  Time-lapse two-color 3D imaging of live cells with doubled resolution using structured illumination , 2012, Proceedings of the National Academy of Sciences.

[36]  S. Bals,et al.  Multiple dot-in-rod PbS/CdS heterostructures with high photoluminescence quantum yield in the near-infrared. , 2012, Journal of the American Chemical Society.

[37]  Mostafa A. El-Sayed,et al.  The golden age: gold nanoparticles for biomedicine. , 2012, Chemical Society reviews.

[38]  Omid C Farokhzad,et al.  Targeted polymeric therapeutic nanoparticles: design, development and clinical translation. , 2012, Chemical Society reviews.

[39]  Wei Feng,et al.  Blue-emissive upconversion nanoparticles for low-power-excited bioimaging in vivo. , 2012, Journal of the American Chemical Society.

[40]  Yiping Cui,et al.  Tracking multiplex drugs and their dynamics in living cells using the label-free surface-enhanced Raman scattering technique. , 2012, Molecular pharmaceutics.

[41]  S. Lelièvre,et al.  Label-free analysis of breast tissue polarity by Raman imaging of lipid phase. , 2012, Biophysical journal.

[42]  Koen Clays,et al.  Molecular engineering of chromophores for combined second-harmonic and two-photon fluorescence in cellular imaging , 2012 .

[43]  Zufang Huang,et al.  Electrical pulse – mediated enhanced delivery of silver nanoparticles into living suspension cells for surface enhanced Raman spectroscopy , 2012 .

[44]  Srinjan Basu,et al.  Label-free live-cell imaging of nucleic acids using stimulated Raman scattering microscopy. , 2012, Chemphyschem : a European journal of chemical physics and physical chemistry.

[45]  Xin Cai,et al.  Photoacoustic sentinel lymph node imaging with self-assembled copper neodecanoate nanoparticles. , 2012, ACS nano.

[46]  X. Zheng,et al.  Single cell analysis at the nanoscale. , 2012, Chemical Society reviews.

[47]  Mira Kim,et al.  Real-time monitoring of glutathione-triggered thiopurine anticancer drug release in live cells investigated by surface-enhanced Raman scattering. , 2012, Analytical chemistry.

[48]  Junjie Yao,et al.  Double-illumination photoacoustic microscopy. , 2012, Optics letters.

[49]  Alexander P. Savitsky,et al.  FLIM-FRET Imaging of Caspase-3 Activity in Live Cells Using Pair of Red Fluorescent Proteins , 2012, Theranostics.

[50]  Dan Fu,et al.  Quantitative chemical imaging with multiplex stimulated Raman scattering microscopy. , 2012, Journal of the American Chemical Society.

[51]  Hua Mao,et al.  Quantum dots-based nanobiosensors for simultaneous dynamic measurements of multiple intracellular ion concentrations , 2012, BiOS.

[52]  Gilbert C. Walker,et al.  Lipid-encapsulation of surface enhanced Raman scattering (SERS) nanoparticles and targeting to chronic lymphocytic leukemia (CLL) cells , 2012, Other Conferences.

[53]  Fabian Rudolf,et al.  Microfluidic single-cell cultivation chip with controllable immobilization and selective release of yeast cells. , 2012, Lab on a chip.

[54]  Frank Sinner,et al.  Remodeling of Lipid Droplets during Lipolysis and Growth in Adipocytes* , 2012, The Journal of Biological Chemistry.

[55]  A. Genovesio,et al.  Quantification of protein interaction in living cells by two‐photon spectral imaging with fluorescent protein fluorescence resonance energy transfer pair devoid of acceptor bleed‐through , 2012, Cytometry. Part A : the journal of the International Society for Analytical Cytology.

[56]  Jian Xu,et al.  Single cell Raman spectroscopy for cell sorting and imaging. , 2012, Current opinion in biotechnology.

[57]  Frederick Sachs,et al.  Orientation-based FRET sensor for real-time imaging of cellular forces , 2012, Journal of Cell Science.

[58]  Liang Zuo,et al.  Fabrication of Large-Area, High-Enhancement SERS Substrates with Tunable Interparticle Spacing and Application in Identifying Microorganisms at the Single Cell Level , 2012 .

[59]  B. Giepmans,et al.  Immunolabeling artifacts and the need for live-cell imaging , 2012, Nature Methods.

[60]  Dai-Wen Pang,et al.  Effectively and efficiently dissecting the infection of influenza virus by quantum-dot-based single-particle tracking. , 2012, ACS nano.

[61]  Wei Sun,et al.  Dual-Wavelength Detection of Rotational Diffusion of Single Anisotropic Nanocarriers on Live Cell Membranes , 2012 .

[62]  A. Malko,et al.  Unique challenges accompany thick-shell CdSe/nCdS (n > 10) nanocrystal synthesis , 2012 .

[63]  Wei Sun,et al.  Dual-modality single particle orientation and rotational tracking of intracellular transport of nanocargos. , 2012, Analytical chemistry.

[64]  Q. Luo,et al.  Ratiometric fluorescence imaging of dual bio-molecular events in single living cells using a new FRET pair mVenus/mKOκ-based biosensor and a single fluorescent protein biosensor. , 2012, Biosensors & bioelectronics.

[65]  Lukas Novotny,et al.  Real-time optical detection of single human and bacterial viruses based on dark-field interferometry. , 2012, Biosensors & bioelectronics.

[66]  Liguang Xu,et al.  Regiospecific plasmonic assemblies for in situ Raman spectroscopy in live cells. , 2012, Journal of the American Chemical Society.

[67]  Li Zhang,et al.  Selective trapping and manipulation of microscale objects using mobile microvortices. , 2012, Nano letters.

[68]  C. Bain,et al.  Total internal reflection Raman spectroscopy. , 2012, The Analyst.

[69]  K. Kikuchi,et al.  No-wash protein labeling with designed fluorogenic probes and application to real-time pulse-chase analysis. , 2012, Journal of the American Chemical Society.

[70]  Igor L. Medintz,et al.  Quantum dots as simultaneous acceptors and donors in time-gated Förster resonance energy transfer relays: characterization and biosensing. , 2012, Journal of the American Chemical Society.

[71]  Wei Sun,et al.  Rotational dynamics of cargos at pauses during axonal transport , 2012, Nature Communications.

[72]  Hazen P. Babcock,et al.  Dual-objective STORM reveals three-dimensional filament organization in the actin cytoskeleton , 2011, Nature Methods.

[73]  Li-jun Wu,et al.  Three-dimensional Orientation Sensors by Defocused Imaging of Gold Nanorods through an Ordinary Wide-Field Microscope , 2011, 1109.6414.

[74]  Zygmunt Gryczynski,et al.  Extending Förster resonance energy transfer measurements beyond 100 Å using common organic fluorophores: enhanced transfer in the presence of multiple acceptors. , 2012, Journal of biomedical optics.

[75]  Igor L. Medintz,et al.  Quantum dots and fluorescent protein FRET-based biosensors. , 2012, Advances in experimental medicine and biology.

[76]  R. Frontiera,et al.  SERS: Materials, applications, and the future , 2012 .

[77]  R. Campbell,et al.  Förster resonance energy transfer-based biosensors for multiparameter ratiometric imaging of Ca2+ dynamics and caspase-3 activity in single cells. , 2011, Analytical chemistry.

[78]  Dylan T Burnette,et al.  Bleaching/blinking assisted localization microscopy for superresolution imaging using standard fluorescent molecules , 2011, Proceedings of the National Academy of Sciences.

[79]  J. J. Macklin,et al.  Nonlinear structured-illumination microscopy with a photoswitchable protein reveals cellular structures at 50-nm resolution , 2011, Proceedings of the National Academy of Sciences.

[80]  Yin Zhang,et al.  Molecular imaging with SERS-active nanoparticles. , 2011, Small.

[81]  M. Bruchez Quantum dots find their stride in single molecule tracking. , 2011, Current opinion in chemical biology.

[82]  A. Diaspro,et al.  Live-cell 3D super-resolution imaging in thick biological samples , 2011, Nature Methods.

[83]  Moshe Levi,et al.  Identification of cholesterol crystals in plaques of atherosclerotic mice using hyperspectral CARS imaging , 2011, Journal of Lipid Research.

[84]  Michael J. Cronce,et al.  Multiple stromal populations contribute to pulmonary fibrosis without evidence for epithelial to mesenchymal transition , 2011, Proceedings of the National Academy of Sciences.

[85]  J. Shin,et al.  FRep: a fluorescent protein-based bioprobe for in vivo detection of protein-DNA interactions. , 2011, Analytical chemistry.

[86]  Jemma G. Kelly,et al.  Combining immunolabeling and surface-enhanced Raman spectroscopy on cell membranes. , 2011, ACS nano.

[87]  S. Kawata,et al.  Dynamic SERS imaging of cellular transport pathways with endocytosed gold nanoparticles. , 2011, Nano letters.

[88]  Mehmet Toner,et al.  Specific pathogen detection using bioorthogonal chemistry and diagnostic magnetic resonance. , 2011, Bioconjugate chemistry.

[89]  Mark Bates,et al.  Evaluation of fluorophores for optimal performance in localization-based super-resolution imaging , 2011, Nature Methods.

[90]  Prabuddha Sengupta,et al.  Probing protein heterogeneity in the plasma membrane using PALM and pair correlation analysis , 2011, Nature Methods.

[91]  Matthew D. Lew,et al.  Three-dimensional superresolution colocalization of intracellular protein superstructures and the cell surface in live Caulobacter crescentus , 2011, Proceedings of the National Academy of Sciences.

[92]  S. Basu,et al.  VEGFR-2 targeted cellular delivery of doxorubicin by gold nanoparticles for potential antiangiogenic therapy , 2011 .

[93]  Paul R Selvin,et al.  Single-molecule-based super-resolution images in the presence of multiple fluorophores. , 2011, Nano letters.

[94]  Daniel A. Colón-Ramos,et al.  Inverted selective plane illumination microscopy (iSPIM) enables coupled cell identity lineaging and neurodevelopmental imaging in Caenorhabditis elegans , 2011, Proceedings of the National Academy of Sciences.

[95]  Christian Eggeling,et al.  Diffraction-unlimited all-optical imaging and writing with a photochromic GFP , 2011, Nature.

[96]  Geoff P. O’Donoghue,et al.  Supported Membranes Embedded with Fixed Arrays of Gold Nanoparticles , 2011, Nano letters.

[97]  O. Taboga,et al.  Development of a novel set of Gateway‐compatible vectors for live imaging in insect cells , 2011, Insect molecular biology.

[98]  Jim Haseloff,et al.  High-resolution live imaging of plant growth in near physiological bright conditions using light sheet fluorescence microscopy. , 2011, The Plant journal : for cell and molecular biology.

[99]  R. Mouras,et al.  Raman spectroscopy and CARS microscopy of stem cells and their derivatives. , 2011, Journal of Raman spectroscopy : JRS.

[100]  Jerome Mertz,et al.  Optical sectioning microscopy with planar or structured illumination , 2011, Nature Methods.

[101]  Andrew Folick,et al.  Label-free imaging of lipid dynamics using Coherent Anti-stokes Raman Scattering (CARS) and Stimulated Raman Scattering (SRS) microscopy. , 2011, Current opinion in genetics & development.

[102]  D. Kobat,et al.  In vivo two-photon microscopy to 1.6-mm depth in mouse cortex. , 2011, Journal of biomedical optics.

[103]  Christian Eggeling,et al.  A reversibly photoswitchable GFP-like protein with fluorescence excitation decoupled from switching , 2011, Nature Biotechnology.

[104]  Maike Windbergs,et al.  Pharmaceutical applications of non-linear imaging. , 2011, International journal of pharmaceutics.

[105]  Jinxing Lin,et al.  Variable-angle total internal reflection fluorescence microscopy of intact cells of Arabidopsis thaliana , 2011, Plant Methods.

[106]  N. Jana,et al.  Gold-Nanorod-Based Hybrid Cellular Probe with Multifunctional Properties , 2011 .

[107]  Igor L. Medintz,et al.  Semiconductor quantum dots in bioanalysis: crossing the valley of death. , 2011, Analytical chemistry.

[108]  Gary B. Braun,et al.  Quantitative ratiometric discrimination between noncancerous and cancerous prostate cells based on neuropilin-1 overexpression , 2011, Proceedings of the National Academy of Sciences.

[109]  P. Selvin,et al.  Two-photon 3D FIONA of individual quantum dots in an aqueous environment. , 2011, Nano letters.

[110]  S. Gambhir,et al.  Gold nanoparticles: a revival in precious metal administration to patients. , 2011, Nano letters.

[111]  P. Mulvaney,et al.  Surface plasmon resonances in strongly coupled gold nanosphere chains from monomer to hexamer. , 2011, Nano letters.

[112]  Tuan Vo-Dinh,et al.  Silica-coated gold nanostars for combined surface-enhanced Raman scattering (SERS) detection and singlet-oxygen generation: a potential nanoplatform for theranostics. , 2011, Langmuir : the ACS journal of surfaces and colloids.

[113]  Zygmunt Gryczynski,et al.  Imaging exocytosis of ATP-containing vesicles with TIRF microscopy in lung epithelial A549 cells , 2011, Purinergic Signalling.

[114]  A. Ustione,et al.  A simple introduction to multiphoton microscopy , 2011, Journal of microscopy.

[115]  David S. Koos,et al.  Deep and fast live imaging with two-photon scanned light-sheet microscopy , 2011, Nature Methods.

[116]  Luis M Liz-Marzán,et al.  Intracellular mapping with SERS-encoded gold nanostars. , 2011, Integrative biology : quantitative biosciences from nano to macro.

[117]  Zoe A. Wilson,et al.  Subcellular and single-molecule imaging of plant fluorescent proteins using total internal reflection fluorescence microscopy (TIRFM) , 2011, Journal of experimental botany.

[118]  J. Cheon,et al.  Theranostic magnetic nanoparticles. , 2011, Accounts of chemical research.

[119]  Emily A. Smith,et al.  Optimization of silver nanoparticles for surface enhanced Raman spectroscopy of structurally diverse analytes using visible and near-infrared excitation. , 2011, The Analyst.

[120]  J. Crain,et al.  Changes to lipid droplet configuration in mCMV-infected fibroblasts: live cell imaging with simultaneous CARS and two-photon fluorescence microscopy , 2011, Biomedical optics express.

[121]  Aoshuang Xu,et al.  Whole-Cell Scan Using Automatic Variable-Angle and Variable-Illumination-Depth Pseudo—Total Internal Reflection Fluorescence Microscopy , 2011, Journal of laboratory automation.

[122]  Samuel Aparicio,et al.  High-throughput microfluidic single-cell RT-qPCR , 2011, Proceedings of the National Academy of Sciences.

[123]  James S. Duncan,et al.  3-D Reconstruction of Microtubules From Multi-Angle Total Internal Reflection Fluorescence Microscopy Using Bayesian Framework , 2011, IEEE Transactions on Image Processing.

[124]  Stephan Link,et al.  One-Photon Plasmon Luminescence and Its Application to Correlation Spectroscopy as a Probe for Rotational and Translational Dynamics of Gold Nanorods , 2011 .

[125]  S. Yao,et al.  One- and two-photon live cell imaging using a mutant SNAP-Tag protein and its FRET substrate pairs. , 2011, Organic letters.

[126]  J. Vela,et al.  Controlled Fabrication of Colloidal Semiconductor-Metal Hybrid Heterostructures: Site Selective Metal Photo Deposition , 2011 .

[127]  Heyou Han,et al.  Synthesis of multi-branched gold nanoparticles by reduction of tetrachloroauric acid with Tris base, and their application to SERS and cellular imaging , 2011 .

[128]  Jordan R. Myers,et al.  Total internal reflection STED microscopy. , 2011, Optics express.

[129]  Ji-Xin Cheng,et al.  Multimodal nonlinear optical microscopy , 2011, Laser & photonics reviews.

[130]  P. Annibale,et al.  Identification of clustering artifacts in photoactivated localization microscopy , 2011, Nature Methods.

[131]  Dorothea K. Thompson,et al.  Raman chemical imaging of chromate reduction sites in a single bacterium using intracellularly grown gold nanoislands. , 2011, ACS nano.

[132]  Malini Olivo,et al.  Ultrasensitive near-infrared Raman reporters for SERS-based in vivo cancer detection. , 2011, Angewandte Chemie.

[133]  Duane E. Prasuhn,et al.  Reactive semiconductor nanocrystals for chemoselective biolabeling and multiplexed analysis. , 2011, ACS nano.

[134]  Mostafa A. El-Sayed,et al.  Beating cancer in multiple ways using nanogold. , 2011, Chemical Society reviews.

[135]  Harald Giessen,et al.  Three-Dimensional Plasmon Rulers , 2011, Science.

[136]  E. Yeung,et al.  Imaging translational and rotational diffusion of single anisotropic nanoparticles with planar illumination microscopy. , 2011, Journal of the American Chemical Society.

[137]  M. Matsuda,et al.  A genetically encoded Förster resonance energy transfer biosensor for two-photon excitation microscopy. , 2011, Analytical biochemistry.

[138]  Atsushi Miyawaki,et al.  Development of probes for cellular functions using fluorescent proteins and fluorescence resonance energy transfer. , 2011, Annual review of biochemistry.

[139]  Wei Sun,et al.  Superlocalization of single molecules and nanoparticles in high-fidelity optical imaging microfluidic devices. , 2011, Analytical chemistry.

[140]  J. Vela,et al.  Expanding the one-dimensional CdS-CdSe composition landscape: axially anisotropic CdS 1-x Se x nanorods. , 2011, ACS nano.

[141]  A. Shen,et al.  Application of surface‐enhanced Raman scattering in cell analysis , 2011 .

[142]  Dmitri Petrov,et al.  Monitoring of local pH in photodynamic therapy‐treated live cancer cells using surface‐enhanced Raman scattering probes , 2011 .

[143]  Gang Zheng,et al.  Lung cancer targeted Raman active phospholipid gold nanoparticles for ultrasensitive and specific molecular imaging and detection , 2011, European Conference on Biomedical Optics.

[144]  Malini Olivo,et al.  Nano-sensitizers for multi-modality optical diagnostic imaging and therapy of cancer , 2011, European Conference on Biomedical Optics.

[145]  Delong Zhang,et al.  Highly Sensitive Vibrational Imaging by Femtosecond Pulse Stimulated Raman Loss. , 2011, The journal of physical chemistry letters.

[146]  X. Zhuang,et al.  Fast three-dimensional super-resolution imaging of live cells , 2011, Nature Methods.

[147]  Jürgen Bajorath,et al.  A homogeneous fluorescence resonance energy transfer system for monitoring the activation of a protein switch in real time. , 2011, Journal of the American Chemical Society.

[148]  Dan Wang,et al.  Using 915 nm laser excited Tm³+/Er³+/Ho³+- doped NaYbF4 upconversion nanoparticles for in vitro and deeper in vivo bioimaging without overheating irradiation. , 2011, ACS nano.

[149]  Paul Campagnola,et al.  Second harmonic generation imaging microscopy: applications to diseases diagnostics. , 2011, Analytical chemistry.

[150]  M. Davidson,et al.  Rapid three-dimensional isotropic imaging of living cells using Bessel beam plane illumination , 2011, Nature Methods.

[151]  Keith A. Lidke,et al.  Simultaneous multiple-emitter fitting for single molecule super-resolution imaging , 2011, Biomedical optics express.

[152]  M. Wilmanns,et al.  Rapid development of genetically encoded FRET reporters. , 2011, ACS chemical biology.

[153]  Tao Ling,et al.  Pure optical photoacoustic microscopy , 2011, Optics express.

[154]  T. Roose,et al.  Electrophysiological characterization of membrane disruption by nanoparticles. , 2011, ACS nano.

[155]  Mike Friedrich,et al.  STED-SPIM: Stimulated emission depletion improves sheet illumination microscopy resolution. , 2011, Biophysical journal.

[156]  Seung Hyun Kang,et al.  A quantum-dot based protein module for in vivo monitoring of protease activity through fluorescence resonance energy transfer. , 2011, Chemical communications.

[157]  Paul C H Li,et al.  A simple and fast microfluidic approach of same-single-cell analysis (SASCA) for the study of multidrug resistance modulation in cancer cells. , 2011, Lab on a chip.

[158]  N. Malkani,et al.  Some Secrets of Fluorescent Proteins: Distinct Bleaching in Various Mounting Fluids and Photoactivation of Cyan Fluorescent Proteins at YFP-Excitation , 2011, PloS one.

[159]  A. Heisterkamp,et al.  Mechanisms of high-order photobleaching and its relationship to intracellular ablation. , 2011 .

[160]  M. Meneghetti,et al.  SERS labels for quantitative assays: application to the quantification of gold nanoparticles uptaken by macrophage cells , 2011 .

[161]  S. Holden,et al.  DAOSTORM: an algorithm for high- density super-resolution microscopy , 2011, Nature Methods.

[162]  Sailing He,et al.  Raman reporter-coated gold nanorods and their applications in multimodal optical imaging of cancer cells , 2011, Analytical and bioanalytical chemistry.

[163]  S. Hell,et al.  Two-color nanoscopy of three-dimensional volumes by 4Pi detection of stochastically switched fluorophores , 2011, Nature Methods.

[164]  Wei Min,et al.  Coherent nonlinear optical imaging: beyond fluorescence microscopy. , 2011, Annual review of physical chemistry.

[165]  M. Davidson,et al.  An Improved Cerulean Fluorescent Protein with Enhanced Brightness and Reduced Reversible Photoswitching , 2011, PloS one.

[166]  Wei Sun,et al.  Single particle orientation and rotation tracking discloses distinctive rotational dynamics of drug delivery vectors on live cell membranes. , 2011, Journal of the American Chemical Society.

[167]  Jin Zhang,et al.  Luminescent kinase activity biosensors based on a versatile bimolecular switch. , 2011, Journal of the American Chemical Society.

[168]  Gregory V Hartland,et al.  Optical studies of dynamics in noble metal nanostructures. , 2011, Chemical reviews.

[169]  J. Cooper,et al.  Investigation of the stability of labelled nanoparticles for SE(R)RS measurements in cells. , 2011, Chemical communications.

[170]  Brahim Lounis,et al.  Direct investigation of intracellular presence of gold nanoparticles via photothermal heterodyne imaging. , 2011, ACS nano.

[171]  Zhuyuan Wang,et al.  Gold aggregates- and quantum dots- embedded nanospheres: Switchable dual-mode image probes for living cells , 2011 .

[172]  M. Olivo,et al.  Multiplex cancer cell detection by SERS nanotags with cyanine and triphenylmethine Raman reporters. , 2011, Chemical communications.

[173]  Haibo Yu,et al.  Convenient and efficient FRET platform featuring a rigid biphenyl spacer between rhodamine and BODIPY: transformation of 'turn-on' sensors into ratiometric ones with dual emission. , 2011, Chemistry.

[174]  Wei Wu,et al.  Real-Time CARS Imaging Reveals a Calpain-Dependent Pathway for Paranodal Myelin Retraction during High-Frequency Stimulation , 2011, PloS one.

[175]  Simion Astilean,et al.  Solution-phase, dual LSPR-SERS plasmonic sensors of high sensitivity and stability based on chitosan-coated anisotropic silver nanoparticles , 2011 .

[176]  H. Schneckenburger,et al.  Multi‐dimensional fluorescence microscopy of living cells , 2011, Journal of biophotonics.

[177]  Bengt Fadeel,et al.  Toxicology of engineered nanomaterials: focus on biocompatibility, biodistribution and biodegradation. , 2011, Biochimica et biophysica acta.

[178]  Ximei Qian,et al.  Detection of circulating tumor cells in human peripheral blood using surface-enhanced Raman scattering nanoparticles. , 2011, Cancer research.

[179]  L. Tay,et al.  Carbon-bonded silver nanoparticles: alkyne-functionalized ligands for SERS imaging of mammalian cells. , 2011, Chemical communications.

[180]  Warren C W Chan,et al.  Rapid screening of genetic biomarkers of infectious agents using quantum dot barcodes. , 2011, ACS nano.

[181]  Eric C Le Ru,et al.  Combining surface plasmon resonance (SPR) spectroscopy with surface-enhanced Raman scattering (SERS). , 2011, Analytical chemistry.

[182]  Zhuyuan Wang,et al.  Dual-mode probe based on mesoporous silica coated gold nanorods for targeting cancer cells. , 2011, Biosensors & bioelectronics.

[183]  J. Winter,et al.  Alternating-color quantum dot nanocomposites for particle tracking. , 2011, Nano letters.

[184]  John Paul Pezacki,et al.  Chemical contrast for imaging living systems: molecular vibrations drive CARS microscopy , 2011, Nature chemical biology.

[185]  Eun Seong Lee,et al.  Temporary Increase of PPAR-γ and Transient Expression of UCP-1 in Stromal Vascular Fraction Isolated Human Adipocyte Derived Stem Cells During Adipogenesis , 2011, Lipids.

[186]  S. Aștilean,et al.  Flower-shaped gold nanoparticles: synthesis, characterization and their application as SERS-active tags inside living cells , 2011, Nanotechnology.

[187]  Silke Krol,et al.  Synthesis and multidisciplinary characterization of polyelectrolyte multilayer-coated nanogold with improved stability toward aggregation , 2011 .

[188]  C. V. von Arnim,et al.  Spectrally resolved fluorescence lifetime imaging microscopy: Förster resonant energy transfer global analysis with a one- and two-exponential donor model. , 2011, Journal of biomedical optics.

[189]  Molly K. Gregas,et al.  Characterization of nanoprobe uptake in single cells: spatial and temporal tracking via SERS labeling and modulation of surface charge. , 2011, Nanomedicine : nanotechnology, biology, and medicine.

[190]  A. Pietraszewska-Bogiel,et al.  FRET microscopy: from principle to routine technology in cell biology , 2011, Journal of microscopy.

[191]  G. Marriott,et al.  Rational design, synthesis, and characterization of highly fluorescent optical switches for high-contrast optical lock-in detection (OLID) imaging microscopy in living cells. , 2011, Bioorganic & medicinal chemistry.

[192]  Dan Wang,et al.  Fluorescence-surface enhanced Raman scattering co-functionalized gold nanorods as near-infrared probes for purely optical in vivo imaging. , 2011, Biomaterials.

[193]  Marie Erard,et al.  Cyan fluorescent protein carries a constitutive mutation that prevents its dimerization. , 2011, Biochemistry.

[194]  M. Karp,et al.  Bidirectional fluorescence resonance energy transfer (FRET) in mutated and chemically modified yellow fluorescent protein (YFP). , 2011, Bioconjugate chemistry.

[195]  Jerry C. Chang,et al.  Biocompatible quantum dots for biological applications. , 2011, Chemistry & biology.

[196]  Andrew G. York,et al.  Confined Activation and Subdiffractive Localization Enables Whole-Cell PALM with Genetically Expressed Probes , 2011, Nature Methods.

[197]  D. Pang,et al.  Fluorescent-magnetic-biotargeting multifunctional nanobioprobes for detecting and isolating multiple types of tumor cells. , 2011, ACS nano.

[198]  B. Reinhard,et al.  Optical sizing of immunolabel clusters through multispectral plasmon coupling microscopy. , 2011, Nano letters.

[199]  P. Lagoudakis,et al.  Gauging the flexibility of fluorescent markers for the interpretation of fluorescence resonance energy transfer. , 2011, Journal of the American Chemical Society.

[200]  A Menachery,et al.  Dielectrophoretic tweezer for isolating and manipulating target cells. , 2011, IET nanobiotechnology.

[201]  Frederick Sachs,et al.  Visualizing dynamic cytoplasmic forces with a compliance-matched FRET sensor , 2011, Journal of Cell Science.

[202]  M. Cortie,et al.  Synthesis and optical properties of hybrid and alloy plasmonic nanoparticles. , 2011, Chemical reviews.

[203]  Winfried Denk,et al.  Second-harmonic generation imaging of membrane potential with retinal analogues. , 2011, Biophysical journal.

[204]  Henkjan Gersen,et al.  Background-free detection of single 5 nm nanoparticles through interferometric cross-polarization microscopy. , 2011, Nano letters.

[205]  Stefan W. Hell,et al.  Protein localization in electron micrographs using fluorescence nanoscopy , 2010, Nature Methods.

[206]  N. Horiuchi Imaging: Second-harmonic nanoprobes , 2011 .

[207]  Liansheng Tang,et al.  Sequential diagnostic trial designs , 2011 .

[208]  Jianji Pan,et al.  SERS spectra of a single nasopharyngeal carcinoma cell based on intracellularly grown and passive uptake Au nanoparticles , 2011 .

[209]  Zufang Huang,et al.  Optimizing electroporation assisted silver nanoparticle delivery into living C666 cells for surface-enhanced Raman spectroscopy , 2011 .

[210]  Zhuyuan Wang,et al.  Distinguishing breast cancer cells using surface-enhanced Raman scattering , 2011, Analytical and Bioanalytical Chemistry.

[211]  Yury Gogotsi,et al.  Multifunctional carbon-nanotube cellular endoscopes. , 2011, Nature nanotechnology.

[212]  Sebastian van de Linde,et al.  Live-cell dSTORM with SNAP-tag fusion proteins. , 2011, Nature methods.

[213]  Warren C W Chan,et al.  Strategies for the intracellular delivery of nanoparticles. , 2011, Chemical Society reviews.

[214]  T. Vo‐Dinh,et al.  Single-cell monitoring using fiberoptic nanosensors. , 2011, Wiley interdisciplinary reviews. Nanomedicine and nanobiotechnology.

[215]  Joseph Irudayaraj,et al.  Separation and detection of multiple pathogens in a food matrix by magnetic SERS nanoprobes , 2011, Analytical and bioanalytical chemistry.

[216]  D. Malacara-Hernández,et al.  PRINCIPLES OF OPTICS , 2011 .

[217]  X. Zhuang,et al.  Breaking the Diffraction Barrier: Super-Resolution Imaging of Cells , 2010, Cell.

[218]  Helene Andersson-Svahn,et al.  Overview of single-cell analyses: microdevices and applications. , 2010, Lab on a chip.

[219]  Hyuncheol Kim,et al.  Detection of effect of chemotherapeutic agents to cancer cells on gold nanoflower patterned substrate using surface-enhanced Raman scattering and cyclic voltammetry. , 2010, Biosensors & bioelectronics.

[220]  X. Zhuang,et al.  Superresolution Imaging of Chemical Synapses in the Brain , 2010, Neuron.

[221]  X. Xie,et al.  Video-Rate Molecular Imaging in Vivo with Stimulated Raman Scattering , 2010, Science.

[222]  Alexey Semyanov,et al.  Second‐harmonic generation voltage imaging at subcellular resolution in rat hippocampal slices , 2010, Journal of biophotonics.

[223]  M. Montero,et al.  A confocal study on the visualization of chromaffin cell secretory vesicles with fluorescent targeted probes and acidic dyes. , 2010, Journal of structural biology.

[224]  Robert R. Ishmukhametov,et al.  Direct observation of stepped proteolipid ring rotation in E. coli FoF1‐ATP synthase , 2010, The EMBO journal.

[225]  Michael W. Davidson,et al.  Nanoscale architecture of integrin-based cell adhesions , 2010, Nature.

[226]  Wei Sun,et al.  Influence of gold nanorod geometry on optical response. , 2010, ACS nano.

[227]  P. Prasad,et al.  Nonlinear optical imaging and Raman microspectrometry of the cell nucleus throughout the cell cycle. , 2010, Biophysical journal.

[228]  M. E. Phipps,et al.  Time-resolved three-dimensional molecular tracking in live cells. , 2010, Nano letters.

[229]  M. Willemse,et al.  ATP Changes the Fluorescence Lifetime of Cyan Fluorescent Protein via an Interaction with His148 , 2010, PloS one.

[230]  Wei Sun,et al.  Resolving rotational motions of nano-objects in engineered environments and live cells with gold nanorods and differential interference contrast microscopy. , 2010, Journal of the American Chemical Society.

[231]  Felix N. Castellano,et al.  Photon upconversion based on sensitized triplet-triplet annihilation , 2010 .

[232]  Ji-Xin Cheng,et al.  Shedding new light on lipid biology with coherent anti-Stokes Raman scattering microscopy , 2010, Journal of Lipid Research.

[233]  M. Estévez,et al.  A surface energy transfer nanoruler for measuring binding site distances on live cell surfaces. , 2010, Journal of the American Chemical Society.

[234]  C. Röcker,et al.  Endo- and exocytosis of zwitterionic quantum dot nanoparticles by live HeLa cells. , 2010, ACS nano.

[235]  S. Parekh,et al.  Label-free cellular imaging by broadband coherent anti-Stokes Raman scattering microscopy. , 2010, Biophysical journal.

[236]  J. Cooper,et al.  SERS mapping of nanoparticle labels in single cells using a microfluidic chip. , 2010, Chemical communications.

[237]  Paul V. Ruijgrok,et al.  Room-Temperature Detection of a Single Molecule’s Absorption by Photothermal Contrast , 2010, Science.

[238]  Koen Clays,et al.  Dyes for biological second harmonic generation imaging. , 2010, Physical chemistry chemical physics : PCCP.

[239]  J. Bewersdorf,et al.  Three-dimensional tracking of single fluorescent particles with submillisecond temporal resolution. , 2010, Nano letters.

[240]  Rafael Piestun,et al.  Performance limits on three-dimensional particle localization in photon-limited microscopy. , 2010, Optics letters.

[241]  Ji-Xin Cheng,et al.  Vibrational imaging of tablets by epi-detected stimulated Raman scattering microscopy. , 2010, The Analyst.

[242]  Lukas Novotny,et al.  Nanoparticle detection using dual-phase interferometry. , 2010, Applied optics.

[243]  Rodney K. Lyn,et al.  Dynamics of lipid droplets induced by the hepatitis C virus core protein. , 2010, Biochemical and biophysical research communications.

[244]  A. Ojida,et al.  Rational design of FRET-based ratiometric chemosensors for in vitro and in cell fluorescence analyses of nucleoside polyphosphates. , 2010, Journal of the American Chemical Society.

[245]  Mike Heilemann,et al.  Live-cell super-resolution imaging with trimethoprim conjugates , 2010, Nature Methods.

[246]  Yufang Xu,et al.  "Alive" dyes as fluorescent sensors: fluorophore, mechanism, receptor and images in living cells. , 2010, Chemical communications.

[247]  Feng Gao,et al.  In vivo molecular photoacoustic tomography of melanomas targeted by bioconjugated gold nanocages. , 2010, ACS nano.

[248]  Xiaowei Zhuang,et al.  Coupling between clathrin-dependent endocytic budding and F-BAR-dependent tubulation in a cell-free system , 2010, Nature Cell Biology.

[249]  S. Weiss,et al.  Achieving increased resolution and more pixels with Superresolution Optical Fluctuation Imaging (SOFI) , 2010, Optics express.

[250]  Emily A. Smith,et al.  Noninvasive measurements of integrin microclustering under altered membrane cholesterol levels. , 2010, Biophysical journal.

[251]  N. Nakashima,et al.  Uniform and controllable preparation of Au-Ag core-shell nanorods using anisotropic silver shell formation on gold nanorods. , 2010, Nanoscale.

[252]  Tuan Vo-Dinh,et al.  Surface-Enhanced Raman Scattering Detection and Tracking of Nanoprobes: Enhanced Uptake and Nuclear Targeting in Single Cells , 2010, Applied spectroscopy.

[253]  V. Ntziachristos Going deeper than microscopy: the optical imaging frontier in biology , 2010, Nature Methods.

[254]  Philipp J. Keller,et al.  Fast, high-contrast imaging of animal development with scanned light sheet–based structured-illumination microscopy , 2010, Nature Methods.

[255]  Konstantin A Lukyanov,et al.  Red fluorescent protein with reversibly photoswitchable absorbance for photochromic FRET. , 2010, Chemistry & biology.

[256]  Steven Chu,et al.  Subnanometre single-molecule localization, registration and distance measurements , 2010, Nature.

[257]  Periklis Pantazis,et al.  Second harmonic generating (SHG) nanoprobes for in vivo imaging , 2010, Proceedings of the National Academy of Sciences.

[258]  Li‐jun Wu,et al.  Photoluminescence Properties of the CdSe Quantum Dots Accompanied with Rotation of the Defocused Wide-Field Fluorescence Images , 2010 .

[259]  A. Visser,et al.  Global analysis of Förster resonance energy transfer in live cells measured by fluorescence lifetime imaging microscopy exploiting the rise time of acceptor fluorescence. , 2010, Physical chemistry chemical physics : PCCP.

[260]  Nivriti Gahlaut,et al.  Time-resolved luminescence resonance energy transfer imaging of protein–protein interactions in living cells , 2010, Proceedings of the National Academy of Sciences.

[261]  Y. A. Wang,et al.  Quantum Dots with Multivalent and Compact Polymer Coatings for Efficient Fluorescence Resonance Energy Transfer and Self-Assembled Biotagging , 2010 .

[262]  Yong Luo,et al.  Wavelength-dependent differential interference contrast microscopy: multiplexing detection using nonfluorescent nanoparticles. , 2010, Analytical chemistry.

[263]  Wei Qian,et al.  Dark-field light scattering imaging of living cancer cell component from birth through division using bioconjugated gold nanoprobes. , 2010, Journal of biomedical optics.

[264]  L. M. Vinokurov,et al.  FRET-sensor for imaging with lifetime resolution , 2010, Laser Applications in Life Sciences.

[265]  Rodney K. Lyn,et al.  Activity-based Protein Profiling Identifies a Host Enzyme, Carboxylesterase 1, Which Is Differentially Active during Hepatitis C Virus Replication* , 2010, The Journal of Biological Chemistry.

[266]  G. Milligan,et al.  Applications of fluorescence and bioluminescence resonance energy transfer to drug discovery at G protein coupled receptors , 2010, Analytical and bioanalytical chemistry.

[267]  U. Krull,et al.  New opportunities in multiplexed optical bioanalyses using quantum dots and donor–acceptor interactions , 2010, Analytical and bioanalytical chemistry.

[268]  Janina Kneipp,et al.  Surface-enhanced Raman scattering hybrid nanoprobe multiplexing and imaging in biological systems. , 2010, ACS nano.

[269]  R. Grailhe,et al.  Compact and versatile nickel-nitrilotriacetate-modified quantum dots for protein imaging and Förster resonance energy transfer based assay. , 2010, Langmuir : the ACS journal of surfaces and colloids.

[270]  Angelique Louie,et al.  Multimodality imaging probes: design and challenges. , 2010, Chemical reviews.

[271]  J. Lippincott-Schwartz,et al.  Bright monomeric photoactivatable red fluorescent protein for two-color super-resolution sptPALM of live cells. , 2010, Journal of the American Chemical Society.

[272]  Manojit Pramanik,et al.  Near infrared photoacoustic detection of sentinel lymph nodes with gold nanobeacons. , 2010, Biomaterials.

[273]  U. Zabel,et al.  Site-specific, orthogonal labeling of proteins in intact cells with two small biarsenical fluorophores. , 2010, Bioconjugate chemistry.

[274]  Christopher R. Carey,et al.  Imaging and Absolute Extinction Cross-Section Measurements of Nanorods and Nanowires through Polarization Modulation Microscopy† , 2010 .

[275]  P. Annibale,et al.  Photoactivatable Fluorescent Protein mEos2 Displays Repeated Photoactivation after a Long-Lived Dark State in the Red Photoconverted Form , 2010 .

[276]  A. Caneschi,et al.  Coupling between magnetic and optical properties of stable Au–Fe solid solution nanoparticles , 2010, Nanotechnology.

[277]  Igor L. Medintz,et al.  Intracellular bioconjugation of targeted proteins with semiconductor quantum dots. , 2010, Journal of the American Chemical Society.

[278]  David Artigas,et al.  A simple scanless two-photon fluorescence microscope using selective plane illumination. , 2010, Optics express.

[279]  H. Flyvbjerg,et al.  Optimized localization-analysis for single-molecule tracking and super-resolution microscopy , 2010, Nature Methods.

[280]  D. Headon,et al.  Creation of arrays of cell aggregates in defined patterns for developmental biology studies using dielectrophoresis , 2010, Biotechnology and bioengineering.

[281]  K König,et al.  Two‐photon microscopy of deep intravital tissues and its merits in clinical research , 2010, Journal of microscopy.

[282]  M. Dahan,et al.  Probing cellular events, one quantum dot at a time , 2010, Nature Methods.

[283]  Lukas Novotny,et al.  Nano-optofluidic detection of single viruses and nanoparticles. , 2010, ACS nano.

[284]  Keith A. Lidke,et al.  Fast, single-molecule localization that achieves theoretically minimum uncertainty , 2010, Nature Methods.

[285]  S. Diez,et al.  Axial nanometer distances measured by fluorescence lifetime imaging microscopy. , 2010, Nano letters.

[286]  A. Levchenko,et al.  Visualization of JNK activity dynamics with a genetically encoded fluorescent biosensor , 2010, Proceedings of the National Academy of Sciences.

[287]  Masato Yasui,et al.  Membrane potential dynamics of axons in cultured hippocampal neurons probed by second-harmonic-generation imaging. , 2010, Journal of biomedical optics.

[288]  Wei Sun,et al.  Autocalibrated scanning-angle prism-type total internal reflection fluorescence microscopy for nanometer-precision axial position determination. , 2010, Analytical chemistry.

[289]  J. Goguen,et al.  No better time to FRET: shedding light on host pathogen interactions , 2010, Journal of biology.

[290]  R. Edwards,et al.  Localized topological changes of the plasma membrane upon exocytosis visualized by polarized TIRFM , 2010, The Journal of cell biology.

[291]  Chuan He,et al.  Dynamic copper(I) imaging in mammalian cells with a genetically encoded fluorescent copper(I) sensor. , 2010, Journal of the American Chemical Society.

[292]  S. Link,et al.  Plasmonic nanorod absorbers as orientation sensors , 2010, Proceedings of the National Academy of Sciences.

[293]  Bo Huang,et al.  Super-resolution optical microscopy: multiple choices. , 2010, Current opinion in chemical biology.

[294]  Luis Vaca,et al.  A novel form of Total Internal Reflection Fluorescence Microscopy (LG-TIRFM) reveals different and independent lipid raft domains in living cells. , 2010, Biochimica et biophysica acta.

[295]  J. Goedhart,et al.  Bright cyan fluorescent protein variants identified by fluorescence lifetime screening , 2010, Nature Methods.

[296]  Wei Sun,et al.  Optical imaging of non-fluorescent nanoparticle probes in live cells. , 2010, The Analyst.

[297]  Takeharu Nagai,et al.  Reversible dimerization of Aequorea victoria fluorescent proteins increases the dynamic range of FRET-based indicators. , 2010, ACS chemical biology.

[298]  T. Heyduk,et al.  Fluorescent homogeneous immunosensors for detecting pathogenic bacteria. , 2010, Analytical biochemistry.

[299]  F. Beltram,et al.  Single amino acid replacement makes Aequorea victoria fluorescent proteins reversibly photoswitchable. , 2010, Journal of the American Chemical Society.

[300]  S. Ameer-Beg,et al.  Time‐lapse FRET microscopy using fluorescence anisotropy , 2010, Journal of microscopy.

[301]  Riyi Shi,et al.  Effective Repair of Traumatically Injured Spinal Cord by Nanoscale Block Copolymer Micelles , 2009, Nature nanotechnology.

[302]  M. Hermann,et al.  Complex patterns of mitochondrial dynamics in human pancreatic cells revealed by fluorescent confocal imaging , 2009, Journal of cellular and molecular medicine.

[303]  Fu-Jen Kao,et al.  Fluorescence lifetime dynamics of enhanced green fluorescent protein in protein aggregates with expanded polyglutamine. , 2010, Journal of biomedical optics.

[304]  W. E. Moerner,et al.  Localizing and tracking single nanoscale emitters in three dimensions with high spatiotemporal resolution using a double-helix point spread function. , 2010, Nano letters.

[305]  Jerome Mertz,et al.  Scanning light-sheet microscopy in the whole mouse brain with HiLo background rejection. , 2010, Journal of biomedical optics.

[306]  B. Reinhard,et al.  Insights from a nanoparticle minuet: two-dimensional membrane profiling through silver plasmon ruler tracking. , 2010, Nano letters.

[307]  S. Weiss,et al.  Fast, background-free, 3D super-resolution optical fluctuation imaging (SOFI) , 2009, Proceedings of the National Academy of Sciences.

[308]  D. Braun,et al.  Hybridization kinetics is different inside cells , 2009, Proceedings of the National Academy of Sciences.

[309]  Thomas Kelly,et al.  In vivo magnetic enrichment and multiplex photoacoustic detection of circulating tumour cells. , 2009, Nature nanotechnology.

[310]  Bonggi Lee,et al.  Differential association of adipophilin and TIP47 proteins with cytoplasmic lipid droplets in mouse enterocytes during dietary fat absorption. , 2009, Biochimica et biophysica acta.

[311]  K. Ota,et al.  Circular permutation of ligand‐binding module improves dynamic range of genetically encoded FRET‐based nanosensor , 2009, Protein science : a publication of the Protein Society.

[312]  Robert V Farese,et al.  Lipid Droplets Finally Get a Little R-E-S-P-E-C-T , 2009, Cell.

[313]  Paul S. Blank,et al.  Anomalous Surplus Energy Transfer Observed with Multiple FRET Acceptors , 2009, PloS one.

[314]  Rodney K. Lyn,et al.  Direct imaging of the disruption of hepatitis C virus replication complexes by inhibitors of lipid metabolism. , 2009, Virology.

[315]  Y. Gogotsi,et al.  In situ intracellular spectroscopy with surface enhanced Raman spectroscopy (SERS)-enabled nanopipettes. , 2009, ACS nano.

[316]  M. El-Sayed,et al.  Effect of orientation on plasmonic coupling between gold nanorods. , 2009, ACS nano.

[317]  J. Lippincott-Schwartz,et al.  Photoactivatable fluorescent proteins for diffraction-limited and super-resolution imaging. , 2009, Trends in cell biology.

[318]  Rafael Piestun,et al.  Polarization sensitive, three-dimensional, single-molecule imaging of cells with a double-helix system. , 2009, Optics express.

[319]  Marc Tramier,et al.  Quantitative comparison of different fluorescent protein couples for fast FRET-FLIM acquisition. , 2009, Biophysical journal.

[320]  Daniel Ahmed,et al.  Acoustic tweezers: patterning cells and microparticles using standing surface acoustic waves (SSAW). , 2009, Lab on a chip.

[321]  A Paul Alivisatos,et al.  Continuous imaging of plasmon rulers in live cells reveals early-stage caspase-3 activation at the single-molecule level , 2009, Proceedings of the National Academy of Sciences.

[322]  John Silcox,et al.  Non-blinking semiconductor nanocrystals , 2009, Nature.

[323]  Koen Clays,et al.  Second-order nonlinear optical properties of fluorescent proteins for second-harmonic imaging , 2009 .

[324]  K. Dholakia,et al.  Nanoshells for surface-enhanced Raman spectroscopy in eukaryotic cells: cellular response and sensor development. , 2009, ACS nano.

[325]  Emily A. Smith,et al.  Identifying cytoplasmic proteins that affect receptor clustering using fluorescence resonance energy transfer and RNA interference , 2009, Analytical and bioanalytical chemistry.

[326]  Volker Deckert,et al.  Tip‐Enhanced Raman Spectroscopy , 2009 .

[327]  S.W. HELL,et al.  A compact STED microscope providing 3D nanoscale resolution , 2009, Journal of microscopy.

[328]  Ji‐Xin Cheng,et al.  Imaging growth of neurites in conditioned hydrogel by coherent anti-Stokes Raman scattering microscopy , 2009, Organogenesis.

[329]  Rebecca L. Webb,et al.  Using total internal reflection fluorescence (TIRF) microscopy to visualize cortical actin and microtubules in the Drosophila syncytial embryo , 2009, Developmental dynamics : an official publication of the American Association of Anatomists.

[330]  N. Jana,et al.  Functionalized Plasmonic-Fluorescent Nanoparticles for Imaging and Detection , 2009 .

[331]  Wei Sun,et al.  Wavelength-dependent differential interference contrast microscopy: selectively imaging nanoparticle probes in live cells. , 2009, Analytical chemistry.

[332]  Julie A. Theriot,et al.  Intracellular fluid flow in rapidly moving cells , 2009, Nature Cell Biology.

[333]  Takeharu Nagai,et al.  Visualization of ATP levels inside single living cells with fluorescence resonance energy transfer-based genetically encoded indicators , 2009, Proceedings of the National Academy of Sciences.

[334]  T. Laurell,et al.  Review of cell and particle trapping in microfluidic systems. , 2009, Analytica chimica acta.

[335]  Cynthia F. Booker,et al.  Characterization of an orange acceptor fluorescent protein for sensitized spectral fluorescence resonance energy transfer microscopy using a white-light laser. , 2009, Journal of biomedical optics.

[336]  Lihong V. Wang Multiscale photoacoustic microscopy and computed tomography. , 2009, Nature photonics.

[337]  N. Perrimon,et al.  Droplet microfluidic technology for single-cell high-throughput screening , 2009, Proceedings of the National Academy of Sciences.

[338]  Riyi Shi,et al.  Glutamate Excitotoxicity Inflicts Paranodal Myelin Splitting and Retraction , 2009, PloS one.

[339]  Ramón Carriles,et al.  Invited review article: Imaging techniques for harmonic and multiphoton absorption fluorescence microscopy. , 2009, The Review of scientific instruments.

[340]  N. Nishimura,et al.  Deep tissue multiphoton microscopy using longer wavelength excitation. , 2009, Optics express.

[341]  Kort Travis,et al.  Dynamic imaging of molecular assemblies in live cells based on nanoparticle plasmon resonance coupling. , 2009, Nano letters.

[342]  Thomas Laurell,et al.  Acoustic differential extraction for forensic analysis of sexual assault evidence. , 2009, Analytical chemistry.

[343]  M. Gustafsson,et al.  Subdiffraction resolution in continuous samples , 2009 .

[344]  M. Bonn,et al.  Imaging of chemical and physical state of individual cellular lipid droplets using multiplex CARS microscopy , 2009 .

[345]  L. Gustafsson,et al.  CARS microscopy of lipid stores in yeast: the impact of nutritional state and genetic background , 2009 .

[346]  Ji-Xin Cheng,et al.  Compound Raman Microscopy for High-speed Vibrational Imaging and Spectral Analysis of Lipid Bodies , 2009, Microscopy and Microanalysis.

[347]  Kotaro Oka,et al.  Simultaneous Live Cell Imaging Using Dual FRET Sensors with a Single Excitation Light , 2009, PloS one.

[348]  C. Sönnichsen,et al.  Rotational Dynamics of Laterally Frozen Nanoparticles Specifically Attached to Biomembranes , 2009 .

[349]  Yale E Goldman,et al.  Parallax: high accuracy three-dimensional single molecule tracking using split images. , 2009, Nano letters.

[350]  Mark Bates,et al.  Super-resolution fluorescence microscopy. , 2009, Annual review of biochemistry.

[351]  B. Dietzek,et al.  Raman and CARS microspectroscopy of cells and tissues. , 2009, The Analyst.

[352]  H. Ho,et al.  Quantum-Dots-Doped ORMOSIL Nanoparticles as Optical Probes for Total Internal Reflection Fluorescence Imaging of Cancer Cells , 2009, IEEE Journal of Selected Topics in Quantum Electronics.

[353]  Xinmai Yang,et al.  Molecular photoacoustic tomography with colloidal nanobeacons. , 2009, Angewandte Chemie.

[354]  Roman Schmidt,et al.  Mitochondrial cristae revealed with focused light. , 2009, Nano letters.

[355]  Maxime Dahan,et al.  Velocity, processivity, and individual steps of single myosin V molecules in live cells. , 2009, Biophysical journal.

[356]  H. Masuhara,et al.  Spectral and 3-Dimensional Tracking of Single Gold Nanoparticles in Living Cells Studied by Rayleigh Light Scattering Microscopy† , 2009 .

[357]  Daniel T. Chiu,et al.  Chemistry and biology in femtoliter and picoliter volume droplets. , 2009, Accounts of chemical research.

[358]  Igor L. Medintz,et al.  Multiplex charge-transfer interactions between quantum dots and peptide-bridged ruthenium complexes. , 2009, Analytical chemistry.

[359]  D. M. Olive,et al.  A nonfluorescent, broad-range quencher dye for Förster resonance energy transfer assays. , 2009, Analytical biochemistry.

[360]  Herbert Schneckenburger,et al.  A membrane‐bound FRET‐based caspase sensor for detection of apoptosis using fluorescence lifetime and total internal reflection microscopy , 2009, Cytometry. Part A : the journal of the International Society for Analytical Cytology.

[361]  Takeharu Nagai,et al.  An ultramarine fluorescent protein with increased photostability and pH insensitivity , 2009, Nature Methods.

[362]  Bryant B. Chhun,et al.  Super-Resolution Video Microscopy of Live Cells by Structured Illumination , 2009, Nature Methods.

[363]  T. Hohsaka,et al.  Position‐Specific Incorporation of Fluorescent Non‐natural Amino Acids into Maltose‐Binding Protein for Detection of Ligand Binding by FRET and Fluorescence Quenching , 2009, Chembiochem : a European journal of chemical biology.

[364]  Ji‐Xin Cheng,et al.  Single-Cell Profiling Reveals the Origin of Phenotypic Variability in Adipogenesis , 2009, PloS one.

[365]  Matthias Hillenbrand,et al.  Thin-sheet laser imaging microscopy for optical sectioning of thick tissues. , 2009, BioTechniques.

[366]  Felicity L. Mitchell,et al.  Molecular dynamics study of chemically engineered green fluorescent protein mutants: Comparison of intramolecular fluorescence resonance energy transfer rate , 2009, Proteins.

[367]  D. Shcherbo,et al.  UvA-DARE ( Digital Academic Repository ) Practical and reliable FRET / FLIM pair of fluorescent proteins , 2009 .

[368]  Tymish Y. Ohulchanskyy,et al.  Combined Optical and MR Bioimaging Using Rare Earth Ion Doped NaYF4 Nanocrystals , 2009 .

[369]  P. Dedecker,et al.  Defocused Wide‐field Imaging Unravels Structural and Temporal Heterogeneity in Complex Systems , 2009 .

[370]  Y. Hori,et al.  Covalent protein labeling based on noncatalytic beta-lactamase and a designed FRET substrate. , 2009, Journal of the American Chemical Society.

[371]  Claire M. Brown,et al.  Live-cell microscopy – tips and tools , 2009, Journal of Cell Science.

[372]  B. Guptaroy,et al.  Dopamine and Amphetamine Rapidly Increase Dopamine Transporter Trafficking to the Surface: Live-Cell Imaging Using Total Internal Reflection Fluorescence Microscopy , 2009, The Journal of Neuroscience.

[373]  Paul Mulvaney,et al.  Plasmon coupling of gold nanorods at short distances and in different geometries. , 2009, Nano letters.

[374]  Katherine A. Willets,et al.  Surface-enhanced Raman scattering (SERS) for probing internal cellular structure and dynamics , 2009, Analytical and bioanalytical chemistry.

[375]  Li Wang,et al.  Nuclear targeted nanoprobe for single living cell detection by surface-enhanced Raman scattering. , 2009, Bioconjugate chemistry.

[376]  J. Lippincott-Schwartz,et al.  Interferometric fluorescent super-resolution microscopy resolves 3D cellular ultrastructure , 2009, Proceedings of the National Academy of Sciences.

[377]  Herbert Schneckenburger,et al.  Forster resonance energy transfer-based total internal reflection fluorescence reader for apoptosis. , 2009, Journal of biomedical optics.

[378]  Christian Eggeling,et al.  STED microscopy reveals crystal colour centres with nanometric resolution. , 2009 .

[379]  S. Hell,et al.  Direct observation of the nanoscale dynamics of membrane lipids in a living cell , 2009, Nature.

[380]  Koen Clays,et al.  Amphiphilic porphyrins for second harmonic generation imaging. , 2009, Journal of the American Chemical Society.

[381]  Guglielmo Lanzani,et al.  CdSe/CdS/ZnS double shell nanorods with high photoluminescence efficiency and their exploitation as biolabeling probes. , 2009, Journal of the American Chemical Society.

[382]  Igor L. Medintz,et al.  Delivering quantum dots into cells: strategies, progress and remaining issues , 2009, Analytical and bioanalytical chemistry.

[383]  Zhigang Chen,et al.  Laser scanning up-conversion luminescence microscopy for imaging cells labeled with rare-earth nanophosphors. , 2009, Analytical chemistry.

[384]  Tuan Vo-Dinh,et al.  SERS-based plasmonic nanobiosensing in single living cells , 2009, Analytical and bioanalytical chemistry.

[385]  Robert E Campbell,et al.  Genetically encoded FRET-based biosensors for multiparameter fluorescence imaging. , 2009, Current opinion in biotechnology.

[386]  Hong Ding,et al.  Metallic Nanostructures as Localized Plasmon Resonance Enhanced Scattering Probes for Multiplex Dark Field Targeted Imaging of Cancer Cells. , 2009, The journal of physical chemistry. C, Nanomaterials and interfaces.

[387]  Kyujung Kim,et al.  Nanograting-based plasmon enhancement for total internal reflection fluorescence microscopy of live cells , 2009, Nanotechnology.

[388]  R. Jaenisch,et al.  Microfluidic Control of Cell Pairing and Fusion , 2009, Nature Methods.

[389]  B Rieger,et al.  A hybrid total internal reflection fluorescence and optical tweezers microscope to study cell adhesion and membrane protein dynamics of single living cells , 2009, Journal of microscopy.

[390]  Christopher Dunsby,et al.  Optically sectioned imaging by oblique plane microscopy , 2008, European Conference on Biomedical Optics.

[391]  Fabio Beltram,et al.  Quantitative FRET Analysis With the E0GFP‐mCherry Fluorescent Protein Pair , 2009, Photochemistry and photobiology.

[392]  Tayyaba Hasan,et al.  Intracellular drug delivery by poly(lactic-co-glycolic acid) nanoparticles, revisited. , 2009, Molecular pharmaceutics.

[393]  Maria Dimaki,et al.  Manipulation of biological samples using micro and nano techniques. , 2009, Integrative biology : quantitative biosciences from nano to macro.

[394]  J. Pines,et al.  A quantitative protocol for dynamic measurements of protein interactions by Förster resonance energy transfer-sensitized fluorescence emission , 2009, Journal of The Royal Society Interface.

[395]  R. Piestun,et al.  Three dimensional tracking of fluorescent microparticles using a photon-limited double-helix response system. , 2008, Optics express.

[396]  Mortazavi,et al.  Supporting Online Material Materials and Methods Figs. S1 to S13 Tables S1 to S3 References Label-free Biomedical Imaging with High Sensitivity by Stimulated Raman Scattering Microscopy , 2022 .

[397]  S. Ram,et al.  High accuracy 3D quantum dot tracking with multifocal plane microscopy for the study of fast intracellular dynamics in live cells. , 2008, Biophysical journal.

[398]  Chang Lu,et al.  Total internal reflection fluorescence flow cytometry. , 2008, Analytical chemistry.

[399]  K. Svoboda,et al.  A genetically encoded fluorescent sensor of ERK activity , 2008, Proceedings of the National Academy of Sciences.

[400]  A. Ting,et al.  Fluorescent probes for super-resolution imaging in living cells , 2008, Nature Reviews Molecular Cell Biology.

[401]  Colin J R Sheppard,et al.  Partially coherent image formation in differential interference contrast (DIC) microscope. , 2008, Optics express.

[402]  Ji-Xin Cheng,et al.  Ex vivo and in vivo imaging of myelin fibers in mouse brain by coherent anti-Stokes Raman scattering microscopy. , 2008, Optics express.

[403]  Ewan J McGhee,et al.  Multiplexed FRET to image multiple signaling events in live cells. , 2008, Biophysical journal.

[404]  M. Bonn,et al.  Quantitative label-free imaging of lipid composition and packing of individual cellular lipid droplets using multiplex CARS microscopy. , 2008, Biophysical journal.

[405]  R. Sinclair,et al.  Multiplex detection of protease activity with quantum dot nanosensors prepared by intein-mediated specific bioconjugation. , 2008, Analytical Chemistry.

[406]  Philipp J. Keller,et al.  Reconstruction of Zebrafish Early Embryonic Development by Scanned Light Sheet Microscopy , 2008, Science.

[407]  Jiang Jiang,et al.  Second-Harmonic Generation Imaging of Membrane Potential with Photon Counting , 2008, Microscopy and Microanalysis.

[408]  X. Zhuang,et al.  Whole cell 3D STORM reveals interactions between cellular structures with nanometer-scale resolution , 2008, Nature Methods.

[409]  Hideaki Kano,et al.  Molecular vibrational imaging of a human cell by multiplex coherent anti-Stokes Raman scattering microspectroscopy using a supercontinuum light source , 2008 .

[410]  E. Yeung,et al.  Real‐time three‐dimensional imaging of cell division by differential interference contrast microscopy , 2008, Journal of microscopy.

[411]  Jun Xu,et al.  Construction of fluorescence resonance energy transfer vectors and their application in study of structure and function of signal transducers and activators of transcription 1. , 2008, Acta biochimica et biophysica Sinica.

[412]  D. Kleinfeld,et al.  Advancing multifocal nonlinear microscopy: development and application of a novel multibeam Yb:KGd(WO4)2 oscillator. , 2008, Optics express.

[413]  T. Holy,et al.  Miniaturization and defocus correction for objective-coupled planar illumination microscopy. , 2008, Optics letters.

[414]  Vladimir P Zharov,et al.  Quantum dots as multimodal photoacoustic and photothermal contrast agents. , 2008, Nano letters.

[415]  A. Stemmer,et al.  Sub‐100‐nanometre resolution in total internal reflection fluorescence microscopy , 2008, Journal of microscopy.

[416]  S. Hell,et al.  Stimulated emission depletion (STED) nanoscopy of a fluorescent protein-labeled organelle inside a living cell , 2008, Proceedings of the National Academy of Sciences.

[417]  J. Yajima,et al.  A torque component present in mitotic kinesin Eg5 revealed by three-dimensional tracking , 2008, Nature Structural &Molecular Biology.

[418]  S. Hell,et al.  Fluorescence nanoscopy by ground-state depletion and single-molecule return , 2008, Nature Methods.

[419]  Marc Tramier,et al.  Quantitative FRET analysis by fast acquisition time domain FLIM at high spatial resolution in living cells. , 2008, Biophysical journal.

[420]  B. Reinhard,et al.  Resolving sub-diffraction limit encounters in nanoparticle tracking using live cell plasmon coupling microscopy. , 2008, Nano letters.

[421]  D. Ye,et al.  Molecular beacons: an optimal multifunctional biological probe. , 2008, Biochemical and biophysical research communications.

[422]  R. Heintzmann,et al.  satFRET: estimation of Förster resonance energy transfer by acceptor saturation , 2008, European Biophysics Journal.

[423]  D. Axelrod,et al.  The structural and functional implications of linked SNARE motifs in SNAP25. , 2008, Molecular biology of the cell.

[424]  Stefan Diez,et al.  Quantum-dot-assisted characterization of microtubule rotations during cargo transport. , 2008, Nature nanotechnology.

[425]  R. Nitschke,et al.  Quantum dots versus organic dyes as fluorescent labels , 2008, Nature Methods.

[426]  Alaaldin M. Alkilany,et al.  Gold nanoparticles in biology: beyond toxicity to cellular imaging. , 2008, Accounts of chemical research.

[427]  M. Heilemann,et al.  Subdiffraction-resolution fluorescence imaging with conventional fluorescent probes. , 2008, Angewandte Chemie.

[428]  B. Dubertret,et al.  Towards non-blinking colloidal quantum dots. , 2008, Nature materials.

[429]  Pin Wang,et al.  Site-specific labeling of enveloped viruses with quantum dots for single virus tracking. , 2008, ACS nano.

[430]  Yasushi Okamura,et al.  Improving membrane voltage measurements using FRET with new fluorescent proteins , 2008, Nature Methods.

[431]  Ramón Carriles,et al.  Simultaneous multifocal, multiphoton, photon counting microscopy. , 2008, Optics express.

[432]  M. Gustafsson,et al.  Three-dimensional resolution doubling in wide-field fluorescence microscopy by structured illumination. , 2008, Biophysical journal.

[433]  N. Shah,et al.  Surface-enhanced Raman spectroscopy. , 2008, Annual review of analytical chemistry.

[434]  Jane A Dickerson,et al.  Coherent anti-stokes Raman scattering microscopy: chemical imaging for biology and medicine. , 2008, Annual review of analytical chemistry.

[435]  Tian-Cai Liu,et al.  Study on molecular interactions between proteins on live cell membranes using quantum dot-based fluorescence resonance energy transfer , 2008, Analytical and bioanalytical chemistry.

[436]  M. Gustafsson,et al.  Subdiffraction Multicolor Imaging of the Nuclear Periphery with 3D Structured Illumination Microscopy , 2008, Science.

[437]  M. Wirth,et al.  Silica Colloidal Crystals as Porous Substrates for Total Internal Reflection Fluorescence Microscopy of Live Cells , 2008, Applied spectroscopy.

[438]  Christopher J Easley,et al.  Optical lock-in detection of FRET using synthetic and genetically encoded optical switches. , 2008, Biophysical journal.

[439]  S. Hess,et al.  Three-dimensional sub–100 nm resolution fluorescence microscopy of thick samples , 2008, Nature Methods.

[440]  S. Hell,et al.  Spherical nanosized focal spot unravels the interior of cells , 2008, Nature Methods.

[441]  Otto L. Muskens,et al.  Quantitative Absorption Spectroscopy of a Single Gold Nanorod , 2008 .

[442]  T. Vu,et al.  Ligand-bound quantum dot probes for studying the molecular scale dynamics of receptor endocytic trafficking in live cells. , 2008, ACS nano.

[443]  V. S. Lin,et al.  Endocytosis of a single mesoporous silica nanoparticle into a human lung cancer cell observed by differential interference contrast microscopy , 2008, Analytical and bioanalytical chemistry.

[444]  Ulrich Kubitscheck,et al.  High-contrast single-particle tracking by selective focal plane illumination microscopy. , 2008, Optics express.

[445]  Andreas Janshoff,et al.  Protein-membrane interaction probed by single plasmonic nanoparticles. , 2008, Nano letters.

[446]  Ammasi Periasamy,et al.  Characterization of an improved donor fluorescent protein for Forster resonance energy transfer microscopy. , 2008, Journal of biomedical optics.

[447]  Monty Liong,et al.  Multifunctional inorganic nanoparticles for imaging, targeting, and drug delivery. , 2008, ACS nano.

[448]  Karsten König,et al.  Prolonged irradiation of enhanced cyan fluorescent protein or Cerulean can invalidate Forster resonance energy transfer measurements. , 2008, Journal of biomedical optics.

[449]  Steven S. Vogel,et al.  Energy migration alters the fluorescence lifetime of Cerulean: implications for fluorescence lifetime imaging Forster resonance energy transfer measurements. , 2008, Journal of biomedical optics.

[450]  Victor Ling,et al.  Same-single-cell analysis for the study of drug efflux modulation of multidrug resistant cells using a microfluidic chip. , 2008, Analytical chemistry.

[451]  N. Pieczonka,et al.  Single molecule analysis by surfaced-enhanced Raman scattering. , 2008, Chemical Society reviews.

[452]  George C Schatz,et al.  Electronic structure methods for studying surface-enhanced Raman scattering. , 2008, Chemical Society reviews.

[453]  Volker Deckert,et al.  Tip-enhanced Raman scattering. , 2008, Chemical Society reviews.

[454]  Robert E Campbell,et al.  Fluorescent protein FRET pairs for ratiometric imaging of dual biosensors , 2008, Nature Methods.

[455]  Younan Xia,et al.  Dark-field microscopy studies of single metal nanoparticles: understanding the factors that influence the linewidth of the localized surface plasmon resonance. , 2008, Journal of materials chemistry.

[456]  Stefan W. Hell,et al.  Supporting Online Material Materials and Methods Figs. S1 to S9 Tables S1 and S2 References Video-rate Far-field Optical Nanoscopy Dissects Synaptic Vesicle Movement , 2022 .

[457]  Xiaolin Nan,et al.  Organelle tracking in a living cell with microsecond time resolution and nanometer spatial precision. , 2008, Chemphyschem : a European journal of chemical physics and physical chemistry.

[458]  J. Ogink,et al.  A Comparison of Donor-Acceptor Pairs for Genetically Encoded FRET Sensors: Application to the Epac cAMP Sensor as an Example , 2008, PloS one.

[459]  S. Kalams,et al.  DC-Dielectrophoretic separation of biological cells by size , 2008, Biomedical microdevices.

[460]  Robert J Harrison,et al.  Analytical optimization of nanocomposite surface‐enhanced Raman spectroscopy/scattering detection in microfluidic separation devices , 2008, Electrophoresis.

[461]  J. Vela,et al.  "Giant" multishell CdSe nanocrystal quantum dots with suppressed blinking. , 2008, Journal of the American Chemical Society.

[462]  Carsten Schultz,et al.  Simultaneous recording of multiple cellular events by FRET. , 2008, ACS chemical biology.

[463]  D. Stainier,et al.  High-speed imaging of developing heart valves reveals interplay of morphogenesis and function , 2008, Development.

[464]  C. Bertozzi,et al.  A FRET-based fluorogenic phosphine for live-cell imaging with the Staudinger ligation. , 2008, Angewandte Chemie.

[465]  T. Holy,et al.  Fast Three-Dimensional Fluorescence Imaging of Activity in Neural Populations by Objective-Coupled Planar Illumination Microscopy , 2008, Neuron.

[466]  Shuming Nie,et al.  Nanometer-scale mapping and single-molecule detection with color-coded nanoparticle probes , 2008, Proceedings of the National Academy of Sciences.

[467]  Sándor Damjanovich,et al.  Two‐sided fluorescence resonance energy transfer for assessing molecular interactions of up to three distinct species in confocal microscopy , 2008, Cytometry. Part A : the journal of the International Society for Analytical Cytology.

[468]  Fusheng Xiong,et al.  Single-molecule detection of DNA via sequence-specific links between F1-ATPase motors and gold nanorod sensors. , 2008, Lab on a chip.

[469]  Weiya Zhou,et al.  Gold nanorod-seeded growth of silver nanostructures: from homogeneous coating to anisotropic coating. , 2008, Langmuir : the ACS journal of surfaces and colloids.

[470]  A. Alivisatos,et al.  Self-assembled binary superlattices of CdSe and Au nanocrystals and their fluorescence properties. , 2008, Journal of the American Chemical Society.

[471]  Monika Ritsch-Marte,et al.  Selective imaging of saturated and unsaturated lipids by wide-field CARS-microscopy. , 2008, Optics express.

[472]  Mark Bates,et al.  Three-Dimensional Super-Resolution Imaging by Stochastic Optical Reconstruction Microscopy , 2008, Science.

[473]  Michael W. Davidson,et al.  Searching the fluorescent protein color palette for new FRET pairs , 2008, SPIE BiOS.

[474]  Robert M. Clegg,et al.  Engineering Redox-Sensitive Linkers for Genetically Encoded FRET-Based Biosensors , 2008, Experimental biology and medicine.

[475]  R. Schneiter,et al.  Lipid signalling in disease , 2008, Nature Reviews Molecular Cell Biology.

[476]  Daniel Ahmed,et al.  Focusing microparticles in a microfluidic channel with standing surface acoustic waves (SSAW). , 2008, Lab on a chip.

[477]  Y. Shyu,et al.  Visualization of AP-1–NF-κB ternary complexes in living cells by using a BiFC-based FRET , 2008, Proceedings of the National Academy of Sciences.

[478]  M. Tokunaga,et al.  Highly inclined thin illumination enables clear single-molecule imaging in cells , 2008, Nature Methods.

[479]  Moungi G Bawendi,et al.  Compact biocompatible quantum dots functionalized for cellular imaging. , 2008, Journal of the American Chemical Society.

[480]  Jin Zhang,et al.  A tunable FRET circuit for engineering fluorescent biosensors. , 2008, Angewandte Chemie.

[481]  Despina Bazou,et al.  NCAM and PSA-NCAM dependent membrane spreading and F-actin reorganization in suspended adhering neural cells , 2008, Molecular membrane biology.

[482]  H. Ewers,et al.  Even illumination in total internal reflection fluorescence microscopy using laser light , 2008, Microscopy research and technique.

[483]  Ji-Xin Cheng,et al.  Coherent Anti-Stokes Raman Scattering Microscopy , 2007, 2008 Conference on Lasers and Electro-Optics and 2008 Conference on Quantum Electronics and Laser Science.

[484]  D. Axelrod Chapter 7: Total internal reflection fluorescence microscopy. , 2008, Methods in cell biology.

[485]  A. Miyawaki,et al.  Engineering FRET constructs using CFP and YFP. , 2008, Methods in cell biology.

[486]  R. Deberardinis,et al.  The biology of cancer: metabolic reprogramming fuels cell growth and proliferation. , 2008, Cell metabolism.

[487]  Sebastian Y Bednarek,et al.  Variable-angle epifluorescence microscopy: a new way to look at protein dynamics in the plant cell cortex. , 2008, The Plant journal : for cell and molecular biology.

[488]  S. Hell Microscopy and its focal switch , 2008, Nature Methods.

[489]  Prashant K. Jain,et al.  Plasmonic photothermal therapy (PPTT) using gold nanoparticles , 2008, Lasers in Medical Science.

[490]  R. V. Van Duyne,et al.  A frequency domain existence proof of single-molecule surface-enhanced Raman spectroscopy. , 2007, Journal of the American Chemical Society.

[491]  Satoshi Kawata,et al.  High-resolution confocal microscopy by saturated excitation of fluorescence. , 2007, Physical review letters.

[492]  R. Shi,et al.  Coherent anti‐stokes Raman scattering imaging of myelin degradation reveals a calcium‐dependent pathway in lyso‐PtdCho‐induced demyelination , 2007, Journal of neuroscience research.

[493]  Mark Bates,et al.  Multicolor Super-Resolution Imaging with Photo-Switchable Fluorescent Probes , 2007, Science.

[494]  L. Liz‐Marzán,et al.  Quasi‐Epitaxial Growth of Ni Nanoshells on Au Nanorods , 2007 .

[495]  M. Gelb,et al.  Probing Phospholipase A2 with Fluorescent Phospholipid Substrates , 2007, Chembiochem : a European journal of chemical biology.

[496]  Sergio Fantini,et al.  Multifocal multiphoton microscopy based on multianode photomultiplier tubes. , 2007, Optics express.

[497]  P. So,et al.  Two-dimensional standing wave total internal reflection fluorescence microscopy: superresolution imaging of single molecular and biological specimens. , 2007, Biophysical journal.

[498]  S. Ikeda,et al.  Estimating protein-protein interaction affinity in living cells using quantitative Förster resonance energy transfer measurements. , 2007, Journal of biomedical optics.

[499]  K. Rohr,et al.  Surveillance of siRNA integrity by FRET imaging , 2007, Nucleic acids research.

[500]  D. Stainier,et al.  Even fluorescence excitation by multidirectional selective plane illumination microscopy (mSPIM). , 2007, Optics letters.

[501]  B. Cui,et al.  One at a time, live tracking of NGF axonal transport using quantum dots , 2007, Proceedings of the National Academy of Sciences.

[502]  Karsten Bahlmann,et al.  Multifocal multiphoton microscopy (MMM) at a frame rate beyond 600 Hz. , 2007, Optics express.

[503]  H. G. Schulze,et al.  In situ analysis of living embryonic stem cells by coherent anti-stokes Raman microscopy. , 2007, Analytical chemistry.

[504]  Wen-hong Li,et al.  Photoactivatable and water soluble FRET dyes with high uncaging cross section. , 2007, Journal of the American Chemical Society.

[505]  P. Jain,et al.  Universal scaling of plasmon coupling in metal nanostructures: extension from particle pairs to nanoshells. , 2007, Nano letters.

[506]  Chen-Yuan Dong,et al.  Multiphoton microscopy: a new paradigm in dermatological imaging. , 2007, European journal of dermatology : EJD.

[507]  Hong Ao,et al.  pH-Insensitive FRET Voltage Dyes , 2007, Journal of biomolecular screening.

[508]  Ji‐Xin Cheng,et al.  Imaging receptor-mediated endocytosis with a polymeric nanoparticle-based coherent anti-stokes Raman scattering probe. , 2007, The journal of physical chemistry. B.

[509]  Christian Eggeling,et al.  Fluorescence Nanoscopy in Whole Cells by Asynchronous Localization of Photoswitching Emitters , 2007, Biophysical journal.

[510]  Tobias Breuninger,et al.  Lateral modulation boosts image quality in single plane illumination fluorescence microscopy. , 2007, Optics letters.

[511]  Oliver Friedrich,et al.  Fast XYT Imaging of Elementary Calcium Release Events in Muscle With Multifocal Multiphoton Microscopy and Wavelet Denoising and Detection , 2007, IEEE Transactions on Medical Imaging.

[512]  Joseph Irudayaraj,et al.  Identity profiling of cell surface markers by multiplex gold nanorod probes. , 2007, Nano letters.

[513]  H. Balci,et al.  Three-dimensional particle tracking via bifocal imaging. , 2007, Nano letters.

[514]  Joachim Goedhart,et al.  Bright monomeric red fluorescent protein with an extended fluorescence lifetime , 2007, Nature Methods.

[515]  S. Hell Far-Field Optical Nanoscopy , 2007, Science.

[516]  Kevin Truong,et al.  A computational tool for designing FRET protein biosensors by rigid-body sampling of their conformational space. , 2007, Structure.

[517]  Olaf Schubert,et al.  Gold nanoparticle growth monitored in situ using a novel fast optical single-particle spectroscopy method. , 2007, Nano letters.

[518]  T. Osumi,et al.  CGI-58 facilitates lipolysis on lipid droplets but is not involved in the vesiculation of lipid droplets caused by hormonal stimulation Published, JLR Papers in Press, February 17, 2007. , 2007, Journal of Lipid Research.

[519]  Kort Travis,et al.  Plasmon resonance coupling of metal nanoparticles for molecular imaging of carcinogenesis in vivo. , 2007, Journal of biomedical optics.

[520]  Emily A. Smith,et al.  General in vivo assay for the study of integrin cell membrane receptor microclustering. , 2007, Analytical chemistry.

[521]  Zhuo Gan,et al.  Elucidation of intracellular recycling pathways leading to exocytosis of the Fc receptor, FcRn, by using multifocal plane microscopy , 2007, Proceedings of the National Academy of Sciences.

[522]  A. Schierloh,et al.  Ultramicroscopy: three-dimensional visualization of neuronal networks in the whole mouse brain , 2007, Nature Methods.

[523]  James V Jester,et al.  Application of second harmonic imaging microscopy to assess structural changes in optic nerve head structure ex vivo. , 2007, Journal of biomedical optics.

[524]  J. Swoger,et al.  Basic building units and properties of a fluorescence single plane illumination microscope. , 2007, The Review of scientific instruments.

[525]  S. Kung,et al.  In vivo dynamics of enterovirus protease revealed by fluorescence resonance emission transfer (FRET) based on a novel FRET pair. , 2007, Biochemical and biophysical research communications.

[526]  T. B. Huff,et al.  In vivo coherent anti‐Stokes Raman scattering imaging of sciatic nerve tissue , 2007, Journal of microscopy.

[527]  Edwin Janssen,et al.  ATP and FRET—a cautionary note , 2007, Nature Biotechnology.

[528]  L. Holtzer,et al.  Nanometric three-dimensional tracking of individual quantum dots in cells , 2007 .

[529]  Andreas Zumbusch,et al.  Coherent anti-Stokes Raman scattering microscopy , 1999 .

[530]  Joris J J Dirckx,et al.  Design and quantitative resolution measurements of an optical virtual sectioning three-dimensional imaging technique for biomedical specimens, featuring two-micrometer slicing resolution. , 2007, Journal of biomedical optics.

[531]  Robert E Campbell,et al.  Directed evolution of a monomeric, bright and photostable version of Clavularia cyan fluorescent protein: structural characterization and applications in fluorescence imaging. , 2006, The Biochemical journal.

[532]  G. A. Blab,et al.  Single nanoparticle photothermal tracking (SNaPT) of 5-nm gold beads in live cells. , 2006, Biophysical journal.

[533]  R. Hochstrasser,et al.  Wide-field subdiffraction imaging by accumulated binding of diffusing probes , 2006, Proceedings of the National Academy of Sciences.

[534]  X. Xie,et al.  Intracellular Imaging of HCV RNA and Cellular Lipids by Using Simultaneous Two‐Photon Fluorescence and Coherent Anti‐Stokes Raman Scattering Microscopies , 2006, Chembiochem : a European journal of chemical biology.

[535]  Michael D. Mason,et al.  Ultra-high resolution imaging by fluorescence photoactivation localization microscopy. , 2006, Biophysical journal.

[536]  Stefan W. Hell,et al.  Breaking the diffraction resolution barrier in far-field microscopy by molecular optical bistability , 2006 .

[537]  Marc Tramier,et al.  Sensitivity of CFP/YFP and GFP/mCherry pairs to donor photobleaching on FRET determination by fluorescence lifetime imaging microscopy in living cells , 2006, Microscopy research and technique.

[538]  Peter Saggau,et al.  Standing wave total internal reflection fluorescence microscopy to measure the size of nanostructures in living cells. , 2006, Journal of biomedical optics.

[539]  Ralf Wolleschensky,et al.  High-speed confocal fluorescence imaging with a novel line scanning microscope. , 2006, Journal of biomedical optics.

[540]  E. Derivery,et al.  A Novel Mechanism for the Formation of Actin-Filament Bundles by a Nonprocessive Formin , 2006, Current Biology.

[541]  Michael J Rust,et al.  Sub-diffraction-limit imaging by stochastic optical reconstruction microscopy (STORM) , 2006, Nature Methods.

[542]  Janina Kneipp,et al.  In vivo molecular probing of cellular compartments with gold nanoparticles and nanoaggregates. , 2006, Nano letters.

[543]  J. Lippincott-Schwartz,et al.  Imaging Intracellular Fluorescent Proteins at Nanometer Resolution , 2006, Science.

[544]  Steven S Vogel,et al.  Measurement of FRET efficiency and ratio of donor to acceptor concentration in living cells. , 2006, Biophysical journal.

[545]  S. Lockett,et al.  Coherent anti‐stokes Raman scattering microscopy: A biological review , 2006, Cytometry. Part A : the journal of the International Society for Analytical Cytology.

[546]  D. Axelrod,et al.  Effective elimination of laser interference fringing in fluorescence microscopy by spinning azimuthal incidence angle , 2006, Microscopy research and technique.

[547]  Zeev Rosenzweig,et al.  Synthesis and application of quantum dots FRET-based protease sensors. , 2006, Journal of the American Chemical Society.

[548]  X. Xie,et al.  Nonperturbative chemical imaging of organelle transport in living cells with coherent anti-stokes Raman scattering microscopy. , 2006, Biophysical journal.

[549]  Bene Poelsema,et al.  Shape and size effects in the optical properties of metallic nanorods. , 2006, Physical chemistry chemical physics : PCCP.

[550]  Steven S. Vogel,et al.  Photobleaching of YFP does not produce a CFP-like species that affects FRET measurements , 2006, Nature Methods.

[551]  H. Söling,et al.  Photobleaching of YFP does not produce a CFP-like species that affects FRET measurements , 2006, Nature Methods.

[552]  F. Baluška,et al.  Imaging of Dynamic Secretory Vesicles in Living Pollen Tubes of Picea meyeri Using Evanescent Wave Microscopy1[W] , 2006, Plant Physiology.

[553]  Yohanns Bellaiche,et al.  Tracking individual kinesin motors in living cells using single quantum-dot imaging. , 2006, Nano letters.

[554]  P. Lipsky,et al.  Measurement of two caspase activities simultaneously in living cells by a novel dual FRET fluorescent indicator probe , 2006, Cytometry. Part A : the journal of the International Society for Analytical Cytology.

[555]  Ekaterina A. Bykova,et al.  GFP-based FRET analysis in live cells , 2006, Brain Research.

[556]  T. Jin,et al.  Fluorescence resonance energy transfer in living cells reveals dynamic membrane changes in the initiation of B cell signaling. , 2006, Proceedings of the National Academy of Sciences of the United States of America.

[557]  Christoph J. Engelbrecht,et al.  Resolution enhancement in a light-sheet-based microscope (SPIM). , 2006, Optics letters.

[558]  Joachim Goedhart,et al.  UvA-DARE ( Digital Academic Repository ) Optimization of fluorescent proteins for novel quantitative multiparameter microscopy approaches , 2007 .

[559]  A. Miyawaki,et al.  Concatenation of cyan and yellow fluorescent proteins for efficient resonance energy transfer. , 2006, Biochemistry.

[560]  Sheyum Syed,et al.  Defocused orientation and position imaging (DOPI) of myosin V. , 2006, Proceedings of the National Academy of Sciences of the United States of America.

[561]  Norbert F Scherer,et al.  Stochastic scanning multiphoton multifocal microscopy. , 2006, Optics express.

[562]  Garnett W. Bryant,et al.  Exciton-plasmon interaction and hybrid excitons in semiconductor-metal nanoparticle assemblies , 2006 .

[563]  S. Hell,et al.  STED microscopy reveals that synaptotagmin remains clustered after synaptic vesicle exocytosis , 2006, Nature.

[564]  Chong H. Ahn,et al.  Institute of Physics Publishing Journal of Micromechanics and Microengineering a Review of Microvalves , 2022 .

[565]  David Spetzler,et al.  Microsecond time scale rotation measurements of single F1-ATPase molecules. , 2006, Biochemistry.

[566]  Borivoj Vojnovic,et al.  A dark yellow fluorescent protein (YFP)-based Resonance Energy-Accepting Chromoprotein (REACh) for Förster resonance energy transfer with GFP. , 2006, Proceedings of the National Academy of Sciences of the United States of America.

[567]  J. Aizpurua,et al.  Plasmons in nearly touching metallic nanoparticles: singular response in the limit of touching dimers. , 2006, Optics express.

[568]  Tymish Y. Ohulchanskyy,et al.  A general approach to binary and ternary hybrid nanocrystals. , 2006, Nano letters.

[569]  Arezou A Ghazani,et al.  Determining the size and shape dependence of gold nanoparticle uptake into mammalian cells. , 2006, Nano letters.

[570]  Mengsu Yang,et al.  Microfluidics technology for manipulation and analysis of biological cells , 2006 .

[571]  Adam D. Hoppe,et al.  Three-dimensional FRET microscopy , 2006, SPIE BiOS.

[572]  Toshio Yanagida,et al.  Dynamic polymorphism of single actin molecules in the actin filament , 2006, Nature chemical biology.

[573]  J. Brumbaugh,et al.  A dual parameter FRET probe for measuring PKC and PKA activity in living cells. , 2006, Journal of the American Chemical Society.

[574]  Viola Vogel,et al.  Interferometric optical detection and tracking of very small gold nanoparticles at a water-glass interface. , 2006, Optics express.

[575]  D. Toomre,et al.  Disk-Scanning Confocal Microscopy , 2006 .

[576]  D. A. Stuart,et al.  Surface Enhanced Raman Spectroscopy: New Materials, Concepts, Characterization Tools, and Applications , 2005 .

[577]  Christian Eggeling,et al.  Breaking the diffraction barrier in fluorescence microscopy at low light intensities by using reversibly photoswitchable proteins. , 2005, Proceedings of the National Academy of Sciences of the United States of America.

[578]  W. Denk,et al.  Deep tissue two-photon microscopy , 2005, Nature Methods.

[579]  J. Lichtman,et al.  Optical sectioning microscopy , 2005, Nature Methods.

[580]  Hiroyuki Kishi,et al.  Single-cell microarray for analyzing cellular response. , 2005, Analytical chemistry.

[581]  M. El-Sayed,et al.  Dependence of the enhanced optical scattering efficiency relative to that of absorption for gold metal nanorods on aspect ratio, size, end-cap shape, and medium refractive index. , 2005, The journal of physical chemistry. B.

[582]  M. Gustafsson Nonlinear structured-illumination microscopy: wide-field fluorescence imaging with theoretically unlimited resolution. , 2005, Proceedings of the National Academy of Sciences of the United States of America.

[583]  A. Folch,et al.  Large-scale single-cell trapping and imaging using microwell arrays. , 2005, Analytical chemistry.

[584]  Josef Bille,et al.  Second harmonic generation imaging of collagen fibrils in cornea and sclera. , 2005, Optics express.

[585]  Riyi Shi,et al.  Coherent anti-stokes Raman scattering imaging of axonal myelin in live spinal tissues. , 2005, Biophysical journal.

[586]  L. Blanchoin,et al.  The Formin Homology 1 Domain Modulates the Actin Nucleation and Bundling Activity of Arabidopsis FORMIN1w⃞ , 2005, The Plant Cell Online.

[587]  Jennifer A. Prescher,et al.  Chemistry in living systems , 2005, Nature chemical biology.

[588]  Carsten Sönnichsen,et al.  A molecular ruler based on plasmon coupling of single gold and silver nanoparticles , 2005, Nature Biotechnology.

[589]  T. Nielsen,et al.  Two-dimensional imaging without scanning by multifocal multiphoton microscopy. , 2005, Applied optics.

[590]  Akihiro Kusumi,et al.  Paradigm shift of the plasma membrane concept from the two-dimensional continuum fluid to the partitioned fluid: high-speed single-molecule tracking of membrane molecules. , 2005, Annual review of biophysics and biomolecular structure.

[591]  Clifford M. Babbey,et al.  Performance comparison between the high‐speed Yokogawa spinning disc confocal system and single‐point scanning confocal systems , 2005, Journal of microscopy.

[592]  Alberto Diaspro,et al.  Two-photon fluorescence excitation and related techniques in biological microscopy , 2005, Quarterly Reviews of Biophysics.

[593]  B. Rodríguez-González,et al.  Multishell bimetallic AuAg nanoparticles: synthesis, structure and optical properties , 2005 .

[594]  Paul R Selvin,et al.  Fluorescence imaging with one nanometer accuracy: application to molecular motors. , 2005, Accounts of chemical research.

[595]  H. Hamaguchi,et al.  Ultrabroadband (>2500cm−1) multiplex coherent anti-Stokes Raman scattering microspectroscopy using a supercontinuum generated from a photonic crystal fiber , 2005 .

[596]  Y. Silberberg,et al.  Scanningless depth-resolved microscopy. , 2005, Optics express.

[597]  Despina Bazou,et al.  Physical enviroment of 2-D animal cell aggregates formed in a short pathlength ultrasound standing wave trap. , 2005, Ultrasound in medicine & biology.

[598]  Stéphane Berciaud,et al.  Observation of intrinsic size effects in the optical response of individual gold nanoparticles. , 2005, Nano letters.

[599]  A Paul Alivisatos,et al.  Gold nanorods as novel nonbleaching plasmon-based orientation sensors for polarized single-particle microscopy. , 2005, Nano letters.

[600]  Elinore M Mercer,et al.  Microfluidic sorting of mammalian cells by optical force switching , 2005, Nature Biotechnology.

[601]  M. Müller,et al.  Introduction to Confocal Fluorescence Microscopy, 2nd ed. , 2005 .

[602]  M. Rubart,et al.  Two-photon microscopy of cells and tissue. , 2004, Circulation research.

[603]  S. Ram,et al.  Simultaneous imaging of different focal planes in fluorescence microscopy for the study of cellular dynamics in three dimensions , 2004, IEEE Transactions on NanoBioscience.

[604]  Robert H. Austin,et al.  Continuous microfluidic immunomagnetic cell separation , 2004 .

[605]  Ali Khademhosseini,et al.  Molded polyethylene glycol microstructures for capturing cells within microfluidic channels. , 2004, Lab on a chip.

[606]  G. Whitesides,et al.  A magnetic trap for living cells suspended in a paramagnetic buffer , 2004 .

[607]  Winfried Denk,et al.  On the fundamental imaging-depth limit in two-photon microscopy , 2004, SPIE Photonics Europe.

[608]  R. Zare,et al.  Chemical cytometry on a picoliter-scale integrated microfluidic chip. , 2004, Proceedings of the National Academy of Sciences of the United States of America.

[609]  F. Del Bene,et al.  Optical Sectioning Deep Inside Live Embryos by Selective Plane Illumination Microscopy , 2004, Science.

[610]  Stefan W. Hell,et al.  Strategy for far-field optical imaging and writing without diffraction limit , 2004 .

[611]  Yu-Cheng Lin,et al.  Simulation and experimental demonstration of the electric field assisted electroporation microchip for in vitro gene delivery enhancement. , 2004, Lab on a chip.

[612]  S. Doglia,et al.  Mitochondria in tumor cells studied by laser scanning confocal microscopy. , 2004, Journal of biomedical optics.

[613]  Igor L. Medintz,et al.  Multiplexed toxin analysis using four colors of quantum dot fluororeagents. , 2004, Analytical chemistry.

[614]  S. Ram,et al.  Localization accuracy in single-molecule microscopy. , 2004, Biophysical journal.

[615]  Guillaume Tresset,et al.  A Microfluidic Device for Electrofusion of Biological Vesicles , 2004, 17th IEEE International Conference on Micro Electro Mechanical Systems. Maastricht MEMS 2004 Technical Digest.

[616]  X. Xie,et al.  Coherent Anti-Stokes Raman Scattering Microscopy: Instrumentation, Theory, and Applications , 2004 .

[617]  R. Hooke Micrographia: Or Some Physiological Descriptions of Minute Bodies Made by Magnifying Glasses With Observations and Inquiries Thereupon , 2003 .

[618]  W. Webb,et al.  Nonlinear magic: multiphoton microscopy in the biosciences , 2003, Nature Biotechnology.

[619]  Leslie M Loew,et al.  Second-harmonic imaging microscopy for visualizing biomolecular arrays in cells, tissues and organisms , 2003, Nature Biotechnology.

[620]  X. Xie,et al.  Vibrational imaging of lipid droplets in live fibroblast cells with coherent anti-Stokes Raman scattering microscopy Published, JLR Papers in Press, August 16, 2003. DOI 10.1194/jlr.D300022-JLR200 , 2003, Journal of Lipid Research.

[621]  M R Taghizadeh,et al.  Multiphoton multifocal microscopy exploiting a diffractive optical element. , 2003, Optics letters.

[622]  Vassilios Sarafis,et al.  Resolution enhancement by subtraction of confocal signals taken at different pinhole sizes. , 2003, Micron.

[623]  Lihong V. Wang,et al.  Noninvasive laser-induced photoacoustic tomography for structural and functional in vivo imaging of the brain , 2003, Nature Biotechnology.

[624]  W. Denk,et al.  Two-photon imaging to a depth of 1000 microm in living brains by use of a Ti:Al2O3 regenerative amplifier. , 2003, Optics letters.

[625]  Victoria J Allan,et al.  Light Microscopy Techniques for Live Cell Imaging , 2003, Science.

[626]  Yale E. Goldman,et al.  Three-dimensional structural dynamics of myosin V by single-molecule fluorescence polarization , 2003, Nature.

[627]  G. Zocchi,et al.  Single-molecule detection of DNA hybridization , 2003, Proceedings of the National Academy of Sciences of the United States of America.

[628]  E. Coronado,et al.  The Optical Properties of Metal Nanoparticles: The Influence of Size, Shape, and Dielectric Environment , 2003 .

[629]  Alexandr Jonás,et al.  Three-dimensional tracking of fluorescent nanoparticles with subnanometer precision by use of off-focus imaging. , 2003, Optics letters.

[630]  P. Ratcliffe,et al.  New insights into an enigmatic tumour suppressor , 2003, Nature Cell Biology.

[631]  Bruce J Tromberg,et al.  Selective corneal imaging using combined second-harmonic generation and two-photon excited fluorescence. , 2002, Optics letters.

[632]  George H. Patterson,et al.  A Photoactivatable GFP for Selective Photolabeling of Proteins and Cells , 2002, Science.

[633]  A. Voie,et al.  Imaging the intact guinea pig tympanic bulla by orthogonal-plane fluorescence optical sectioning microscopy , 2002, Hearing Research.

[634]  Andreas Volkmer,et al.  Multiplex Coherent Anti-Stokes Raman Scattering Microspectroscopy and Study of Lipid Vesicles , 2002 .

[635]  Satoshi Kawata,et al.  Second-harmonic-generation microscope with a microlens array scanner. , 2002, Optics letters.

[636]  R. Heintzmann,et al.  Saturated patterned excitation microscopy--a concept for optical resolution improvement. , 2002, Journal of the Optical Society of America. A, Optics, image science, and vision.

[637]  Mengsu Yang,et al.  Cell docking and on-chip monitoring of cellular reactions with a controlled concentration gradient on a microfluidic device. , 2002, Analytical chemistry.

[638]  Gengfeng Zheng,et al.  Laser-scanning coherent anti-Stokes Raman scattering microscopy and applications to cell biology. , 2002, Biophysical journal.

[639]  Charlie Gosse,et al.  Magnetic tweezers: micromanipulation and force measurement at the molecular level. , 2002, Biophysical journal.

[640]  Watt W Webb,et al.  Two-photon fluorescence spectroscopy and microscopy of NAD(P)H and flavoprotein. , 2002, Biophysical journal.

[641]  Takeo Tanaami,et al.  High-speed 1-frame/ms scanning confocal microscope with a microlens and Nipkow disks. , 2002, Applied optics.

[642]  W. Webb,et al.  Precise nanometer localization analysis for individual fluorescent probes. , 2002, Biophysical journal.

[643]  David R. Smith,et al.  Shape effects in plasmon resonance of individual colloidal silver nanoparticles , 2002 .

[644]  Michael S. Feld,et al.  Surface-Enhanced Raman Spectroscopy in Single Living Cells Using Gold Nanoparticles , 2002 .

[645]  Feldmann,et al.  Drastic reduction of plasmon damping in gold nanorods. , 2002, Physical review letters.

[646]  Farooq Azam,et al.  Thin laser light sheet microscope for microbial oceanography. , 2002, Optics express.

[647]  Tom Misteli,et al.  Kinetic modelling approaches to in vivo imaging , 2001, Nature Reviews Molecular Cell Biology.

[648]  R. Heintzmann,et al.  A dual path programmable array microscope (PAM): simultaneous acquisition of conjugate and non‐conjugate images , 2001, Journal of microscopy.

[649]  Jerome Mertz,et al.  Two-photon microscopy in brain tissue: parameters influencing the imaging depth , 2001, Journal of Neuroscience Methods.

[650]  W. Webb,et al.  Multiphoton microscopy in biological research. , 2001, Current opinion in chemical biology.

[651]  X. Xie,et al.  Polarization coherent anti-Stokes Raman scattering microscopy. , 2001, Optics letters.

[652]  David J. Nesbitt,et al.  ``On''/``off'' fluorescence intermittency of single semiconductor quantum dots , 2001 .

[653]  L M Loew,et al.  Second-harmonic imaging microscopy of living cells. , 2001, Journal of biomedical optics.

[654]  S W Hell,et al.  Space‐multiplexed multifocal nonlinear microscopy , 2001, Journal of microscopy.

[655]  J. Lippincott-Schwartz,et al.  Studying protein dynamics in living cells , 2001, Nature Reviews Molecular Cell Biology.

[656]  Weidong Yang,et al.  Linearly Polarized Emission from Colloidal Semiconductor Quantum Rods , 2001, Science.

[657]  T Nielsen,et al.  High efficiency beam splitter for multifocal multiphoton microscopy , 2001, Journal of microscopy.

[658]  T Misteli,et al.  Protein dynamics: implications for nuclear architecture and gene expression. , 2001, Science.

[659]  Jerome Mertz,et al.  Ultra-deep two-photon fluorescence excitation in turbid media , 2001 .

[660]  H. Tanke,et al.  Methods for visualizing RNA processing and transport pathways in living cells , 2001, Histochemistry and Cell Biology.

[661]  A. Henglein,et al.  Laser-Induced Inter-Diffusion in AuAg Core−Shell Nanoparticles , 2000 .

[662]  K. König,et al.  Multiphoton microscopy in life sciences , 2000, Journal of microscopy.

[663]  J. Pendry,et al.  Negative refraction makes a perfect lens , 2000, Physical review letters.

[664]  D. Hanstorp,et al.  Sorting Out Bacterial Viability with Optical Tweezers , 2000, Journal of bacteriology.

[665]  S. Hell,et al.  Time multiplexing and parallelization in multifocal multiphoton microscopy , 2000, Journal of the Optical Society of America. A, Optics, image science, and vision.

[666]  M. Gustafsson Surpassing the lateral resolution limit by a factor of two using structured illumination microscopy , 2000, Journal of microscopy.

[667]  B. Tromberg,et al.  Characterization of cellular optoporation with distance. , 2000, Analytical chemistry.

[668]  Schilders,et al.  Limiting Factors on Image Quality in Imaging through Turbid Media under Single-photon and Two-photon Excitation , 2000, Microscopy and Microanalysis.

[669]  B R Masters,et al.  Two-photon excitation fluorescence microscopy. , 2000, Annual review of biomedical engineering.

[670]  L M Loew,et al.  High-resolution nonlinear optical imaging of live cells by second harmonic generation. , 1999, Biophysical journal.

[671]  T. Jovin,et al.  An optical sectioning programmable array microscope implemented with a digital micromirror device , 1999, Journal of microscopy.

[672]  I. Parker,et al.  Construction of a confocal microscope for real-time x-y and x-z imaging. , 1999, Cell calcium.

[673]  C. Sheppard,et al.  Effect of a confocal pinhole in two‐photon microscopy , 1999, Microscopy research and technique.

[674]  Luca Quaroni,et al.  Preparation of Polymer-Coated Functionalized Silver Nanoparticles , 1999 .

[675]  R C Dunn,et al.  Near-field scanning optical microscopy. , 1999, Chemical reviews.

[676]  S. Hell,et al.  Subdiffraction resolution in far-field fluorescence microscopy. , 1999, Optics letters.

[677]  Leslie M. Loew,et al.  Second-harmonic generation of biological interfaces: probing the membrane protein bacteriorhodopsin and imaging membrane potential around GFP molecules at specific sites in neuronal cells of C. elegans , 1999 .

[678]  W. R. Wiley,et al.  Three-Dimensional Vibrational Imaging by Coherent Anti-Stokes Raman Scattering , 1999 .

[679]  S Kawata,et al.  Real‐time imaging of two‐photon‐induced fluorescence with a microlens‐array scanner and a regenerative amplifier , 1999, Journal of microscopy.

[680]  M. El-Sayed,et al.  Simulation of the Optical Absorption Spectra of Gold Nanorods as a Function of Their Aspect Ratio and the Effect of the Medium Dielectric Constant , 1999 .

[681]  D. Piston Imaging living cells and tissues by two-photon excitation microscopy. , 1999, Trends in cell biology.

[682]  J. Lippincott-Schwartz,et al.  Kinetic Analysis of Secretory Protein Traffic and Characterization of Golgi to Plasma Membrane Transport Intermediates in Living Cells , 1998, The Journal of cell biology.

[683]  Buist,et al.  Real time two‐photon absorption microscopy using multi point excitation , 1998 .

[684]  V. Centonze,et al.  Multiphoton excitation provides optical sections from deeper within scattering specimens than confocal imaging. , 1998, Biophysical journal.

[685]  S. Nie,et al.  Quantum dot bioconjugates for ultrasensitive nonisotopic detection. , 1998, Science.

[686]  D. Balding,et al.  HLA Sequence Polymorphism and the Origin of Humans , 2006 .

[687]  R Gauderon,et al.  Three-dimensional second-harmonic generation imaging with femtosecond laser pulses. , 1998, Optics letters.

[688]  S. Hell,et al.  Multifocal multiphoton microscopy. , 1998, Optics letters.

[689]  T. Jovin,et al.  Theory of confocal fluorescence imaging in the programmable array microscope (PAM) , 1998 .

[690]  Neil,et al.  A light efficient optically sectioning microscope , 1998 .

[691]  Stelzer Contrast, resolution, pixelation, dynamic range and signal‐to‐noise ratio: fundamental limits to resolution in fluorescence light microscopy , 1998 .

[692]  R. Dasari,et al.  Single Molecule Detection Using Surface-Enhanced Raman Scattering (SERS) , 1997 .

[693]  Steven R. Emory,et al.  Probing Single Molecules and Single Nanoparticles by Surface-Enhanced Raman Scattering , 1997, Science.

[694]  P. So,et al.  Cellular response to near-infrared femtosecond laser pulses in two-photon microscopes. , 1997, Optics letters.

[695]  M. Kozubek,et al.  Confocal microscopy by aperture correlation. , 1996, Optics letters.

[696]  M. Nirmal,et al.  Fluorescence intermittency in single cadmium selenide nanocrystals , 1996, Nature.

[697]  L. Loew,et al.  Infrared nonlinear optical measurements of membrane potential in photoreceptor cells. , 1996, Biophysical journal.

[698]  W. Webb,et al.  Measurement of two-photon excitation cross sections of molecular fluorophores with data from 690 to 1050 nm , 1996 .

[699]  R. Webb Confocal optical microscopy , 1996 .

[700]  F A Spelman,et al.  Three-dimensional reconstruction of the cochlea from two-dimensional images of optical sections. , 1995, Computerized medical imaging and graphics : the official journal of the Computerized Medical Imaging Society.

[701]  Michael Vollmer,et al.  Optical properties of metal clusters , 1995 .

[702]  Colin J. R. Sheppard,et al.  Comparison of three‐dimensional imaging properties between two‐photon and single‐photon fluorescence microscopy , 1995 .

[703]  S. Hell,et al.  Lens Aberrations in Confocal Fluorescence Microscopy , 1995 .

[704]  Robert H. Webb,et al.  The Pixilated Image , 1995 .

[705]  S. Hell,et al.  Breaking the diffraction resolution limit by stimulated emission: stimulated-emission-depletion fluorescence microscopy. , 1994, Optics letters.

[706]  J. Lichtman,et al.  Theoretical analysis of a rotating-disk partially confocal scanning microscope. , 1994, Applied optics.

[707]  V. Lee,et al.  Nonlinear optical chromophores with large hyperpolarizabilities and enhanced thermal stabilities , 1993 .

[708]  Christoph F. Schmidt,et al.  Direct observation of kinesin stepping by optical trapping interferometry , 1993, Nature.

[709]  G. Fuhr,et al.  Three-dimensional electric field traps for manipulation of cells--calculation and experimental verification. , 1993, Biochimica et biophysica acta.

[710]  D H Burns,et al.  Orthogonal‐plane fluorescence optical sectioning: Three‐dimensional imaging of macroscopic biological specimens , 1993, Journal of microscopy.

[711]  R A Milligan,et al.  Kinesin follows the microtubule's protofilament axis , 1993, The Journal of cell biology.

[712]  D. Ingber,et al.  Mechanotransduction across the cell surface and through the cytoskeleton , 1993 .

[713]  S. Hell,et al.  Aberrations in confocal fluorescence microscopy induced by mismatches in refractive index , 1993 .

[714]  D. Beratan,et al.  Approaches for Optimizing the First Electronic Hyperpolarizability of Conjugated Organic Molecules , 1991, Science.

[715]  R Nuydens,et al.  Lateral diffusion and retrograde movements of individual cell surface components on single motile cells observed with Nanovid microscopy , 1991, The Journal of cell biology.

[716]  W. Denk,et al.  Two-photon laser scanning fluorescence microscopy. , 1990, Science.

[717]  Colin J. R. Sheppard,et al.  Image formation in two-photon fluorescence microscopy , 1990 .

[718]  Seth R. Marder,et al.  Synthesis of Organic Salts with Large Second-Order Optical Nonlinearities , 1989, Science.

[719]  M. Sheetz,et al.  Tracking kinesin-driven movements with nanometre-scale precision , 1988, Nature.

[720]  M. Minsky Memoir on inventing the confocal scanning microscope , 1988 .

[721]  M. Fordham,et al.  Use of confocal imaging in the study of biological structures. , 1987, Applied optics.

[722]  M. Fordham,et al.  An evaluation of confocal versus conventional imaging of biological structures by fluorescence light microscopy , 1987, The Journal of cell biology.

[723]  N. Åslund,et al.  Three-dimensional digital microscopy using the PHOIBOSl Scanner , 1987 .

[724]  M Deutsch,et al.  Connective tissue polarity. Optical second-harmonic microscopy, crossed-beam summation, and small-angle scattering in rat-tail tendon. , 1986, Biophysical journal.

[725]  S. Chu,et al.  Observation of a single-beam gradient force optical trap for dielectric particles. , 1986, Optics letters.

[726]  P. Danielsson,et al.  Three-dimensional microscopy using a confocal laser scanning microscope. , 1985, Optics letters.

[727]  G. J. Brakenhoff,et al.  Mechanical scan system for microscopic applications , 1983 .

[728]  J. Lakowicz Principles of fluorescence spectroscopy , 1983 .

[729]  M D Duncan,et al.  Scanning coherent anti-Stokes Raman microscope. , 1982, Optics letters.

[730]  G. J. Brakenhoff,et al.  Confocal scanning light microscopy with high aperture immersion lenses , 1979 .

[731]  L. Stryer Fluorescence energy transfer as a spectroscopic ruler. , 1978, Annual review of biochemistry.

[732]  L D Dickson,et al.  Characteristics of a propagating gaussian beam. , 1970, Applied optics.

[733]  Alan Boyde,et al.  The tandem scanning reflected light microscope , 1968 .

[734]  C. Garrett,et al.  Two-Photon Excitation in CaF 2 : Eu 2+ , 1961 .

[735]  G. Kalman Nonlinear oscillations and nonstationary flow in a zero temperature plasma: Part I. Initial and boundary value problems , 1960 .

[736]  E. H. Linfoot,et al.  Diffraction Images in Systems with an Annular Aperture , 1953 .

[737]  H. A. Pohl The Motion and Precipitation of Suspensoids in Divergent Electric Fields , 1951 .

[738]  Maria Goeppert-Mayer Über Elementarakte mit zwei Quantensprüngen , 1931 .

[739]  R. Gans,et al.  Über die Form ultramikroskopischer Silberteilchen , 1915 .

[740]  G. Mie Beiträge zur Optik trüber Medien, speziell kolloidaler Metallösungen , 1908 .

[741]  H. Siedentopf,et al.  Uber Sichtbarmachung und Größenbestimmung ultramikoskopischer Teilchen, mit besonderer Anwendung auf Goldrubingläser , 1902 .