Optical studies of dynamics in noble metal nanostructures.
暂无分享,去创建一个
[1] Dmitri Lapotko,et al. Plasmonic nanoparticle-generated photothermal bubbles and their biomedical applications. , 2009, Nanomedicine.
[2] Michael B. Pomfret,et al. Electrochemical Template Deposition of Aluminum Nanorods Using Ionic Liquids , 2008 .
[3] J. Güdde,et al. Electron and lattice dynamics following optical excitation of metals , 2000 .
[4] M. Quinten,et al. Optical constants of gold and silver clusters in the spectral range between 1.5 eV and 4.5 eV , 1996 .
[5] S. T. Picraux,et al. Ultrafast carrier dynamics in semiconductor nanowires , 2009, 2008 Conference on Lasers and Electro-Optics and 2008 Conference on Quantum Electronics and Laser Science.
[6] M. Broyer,et al. Ultrafast electron-electron scattering and energy exchanges in noble-metal nanoparticles , 2004 .
[7] Joseph M. McLellan,et al. Ultrafast laser studies of the photothermal properties of gold nanocages. , 2006, The journal of physical chemistry. B.
[8] O. Muskens,et al. Single metal nanoparticle absorption spectroscopy and optical characterization , 2006 .
[9] A. Lagendijk,et al. Femtosecond spectroscopy of electron-electron and electron-phonon energy relaxation in Ag and Au. , 1995, Physical review. B, Condensed matter.
[10] Paul Mulvaney,et al. Spectroscopy, Imaging, and Modeling of Individual Gold Decahedra , 2009 .
[11] O. Muskens,et al. Optical response of a single noble metal nanoparticle , 2006 .
[12] S. Link,et al. Plasmonic nanorod absorbers as orientation sensors , 2010, Proceedings of the National Academy of Sciences.
[13] V. Sandoghdar,et al. Detection and spectroscopy of gold nanoparticles using supercontinuum white light confocal microscopy. , 2004, Physical review letters.
[14] Javier Aizpurua,et al. Close encounters between two nanoshells. , 2008, Nano letters.
[15] K. Hamad-Schifferli,et al. Effect of ligands on thermal dissipation from gold nanorods. , 2010, Langmuir : the ACS journal of surfaces and colloids.
[16] R. Kubo,et al. Electronic Properties of Small Particles , 1984 .
[17] R. Jin,et al. Size-focusing synthesis, optical and electrochemical properties of monodisperse Au38(SC2H4Ph)24 nanoclusters. , 2009, ACS nano.
[18] M. Wulff,et al. Time-resolved X-ray diffraction on laser-excited metal nanoparticles , 2003 .
[19] Orla M. Wilson,et al. Colloidal metal particles as probes of nanoscale thermal transport in fluids , 2002 .
[20] B. Reinhard,et al. Correlated Optical Spectroscopy and Transmission Electron Microscopy of Individual Hollow Nanoparticles and their Dimers. , 2008, The journal of physical chemistry. C, Nanomaterials and interfaces.
[21] P. Mulvaney,et al. Determination of the elastic constants of gold nanorods produced by seed mediated growth , 2004 .
[22] Hristina Petrova,et al. Time-resolved and steady state spectroscopy of polydisperse colloidal silver nanoparticle samples. , 2005, The journal of physical chemistry. B.
[23] S. Link,et al. Probing a century old prediction one plasmonic particle at a time. , 2010, Nano letters.
[24] A. Schwartzberg,et al. Electronic relaxation dynamics in isolated and aggregated hollow gold nanospheres. , 2009, Journal of the American Chemical Society.
[25] David R. Smith,et al. Shape effects in plasmon resonance of individual colloidal silver nanoparticles , 2002 .
[26] Qinghua Xu,et al. A simple method for large scale synthesis of highly monodisperse gold nanoparticles at room temperature and their electron relaxation properties , 2009, Nanotechnology.
[27] H. Ehrenreich,et al. Optical Properties of Ag and Cu , 1962 .
[28] U. Kreibig,et al. Dielectric function and plasma resonances of small metal particles , 1975 .
[29] Paul Mulvaney,et al. Gold nanorod extinction spectra , 2006 .
[30] Christopher R. Carey,et al. Coupling to light, and transport and dissipation of energy in silver nanowires. , 2009, Physical chemistry chemical physics : PCCP.
[31] Cheng-Dah Chen,et al. The Shape Transition of Gold Nanorods , 1999 .
[32] P. Leiderer,et al. Coherent acoustic oscillations of nanoscale Au triangles and pyramids: influence of size and substrate , 2007 .
[33] Berg,et al. Observation of hot-electron pressure in the vibration dynamics of metal nanoparticles , 2000, Physical review letters.
[34] M. Natan,et al. Electronic Relaxation Dynamics in Coupled Metal Nanoparticles , 1997 .
[35] David A. Schultz,et al. Single-target molecule detection with nonbleaching multicolor optical immunolabels. , 2000, Proceedings of the National Academy of Sciences of the United States of America.
[36] B. Draine,et al. Discrete-Dipole Approximation For Scattering Calculations , 1994 .
[37] I. B. Martini,et al. Observation of acoustic quantum beats in nanometer sized Au particles , 1998 .
[38] G. Schatz,et al. Nonlocal optical response of metal nanostructures with arbitrary shape. , 2009, Physical review letters.
[39] Sarit K. Das,et al. Probing the Gold Nanorod−Ligand−Solvent Interface by Plasmonic Absorption and Thermal Decay , 2008 .
[40] Mustafa Yorulmaz,et al. Detection limits in photothermal microscopy , 2010 .
[41] T. A. Taton,et al. Thermal transport in au-core polymer-shell nanoparticles. , 2005, Nano letters.
[42] Gregory V. Hartland,et al. Measurements of the material properties of metal nanoparticles by time-resolved spectroscopy , 2004 .
[43] Qing Yang,et al. Direct coupling of plasmonic and photonic nanowires for hybrid nanophotonic components and circuits. , 2009, Nano letters.
[44] Younan Xia,et al. Correlated Rayleigh Scattering Spectroscopy and Scanning Electron Microscopy Studies of Au-Ag Bimetallic Nanoboxes and Nanocages. , 2007, The journal of physical chemistry. C, Nanomaterials and interfaces.
[45] G. Czycholl,et al. Electrical conductivity of long-range–ordered alloys , 2002 .
[46] A. Requicha,et al. Plasmonics—A Route to Nanoscale Optical Devices , 2001 .
[47] Hristina Petrova,et al. On the temperature stability of gold nanorods: comparison between thermal and ultrafast laser-induced heating. , 2006, Physical chemistry chemical physics : PCCP.
[48] P. Jain,et al. Ultrafast electron relaxation dynamics in coupled metal nanoparticles in aggregates. , 2006, The journal of physical chemistry. B.
[50] Paul Mulvaney,et al. Gold nanorods: Synthesis, characterization and applications , 2005 .
[51] M. El-Sayed,et al. Shape and size dependence of radiative, non-radiative and photothermal properties of gold nanocrystals , 2000 .
[52] G. Plessen,et al. Excitation of nanoscale vapor bubbles at the surface of gold nanoparticles in water. , 2006, The Journal of chemical physics.
[53] Joseph F. Parker,et al. Femtosecond Relaxation Dynamics of Au25L18− Monolayer-Protected Clusters , 2009 .
[54] Vollmer,et al. Width of cluster plasmon resonances: Bulk dielectric functions and chemical interface damping. , 1993, Physical review. B, Condensed matter.
[55] T. Ebbesen,et al. Channel plasmon subwavelength waveguide components including interferometers and ring resonators , 2006, Nature.
[56] Diagnostics of Spectrally Resolved Transient Absorption: Surface Plasmon Resonance of Metal Nanoparticles , 2007 .
[57] Gregory V. Hartland,et al. Photophysics of Nanometer Sized Metal Particles: Electron−Phonon Coupling and Coherent Excitation of Breathing Vibrational Modes , 2000 .
[58] Younan Xia,et al. Localized surface plasmon resonance spectroscopy of single silver nanocubes. , 2005, Nano letters.
[59] Peter W. Stephens,et al. Nanocrystal gold molecules , 1996 .
[60] J. Zhang,et al. Ultrafast electron dynamics at the liquid–metal interface: Femtosecond studies using surface plasmons in aqueous silver colloid , 1995 .
[61] J. Pérez‐Juste,et al. Crystal structure dependence of the elastic constants of gold nanorods , 2006 .
[62] Hiroshi Yao,et al. Magic-Numbered Aun Clusters Protected by Glutathione Monolayers (n = 18, 21, 25, 28, 32, 39): Isolation and Spectroscopic Characterization , 2004 .
[63] Olaf Schubert,et al. Plasmonic focusing reduces ensemble linewidth of silver-coated gold nanorods. , 2008, Nano letters.
[64] J. Zhang,et al. Ultrafast Studies of Electron Dynamics in Semiconductor and Metal Colloidal Nanoparticles: Effects of Size and Surface , 1997 .
[65] R. Doremus. Optical Properties of Small Gold Particles , 1964 .
[66] Mathias Brust,et al. Synthesis of thiol-derivatised gold nanoparticles in a two-phase liquid-liquid system , 1994 .
[67] M. El-Sayed,et al. Time-Resolved Investigation of the Acoustic Vibration of a Single Gold Nanoprism Pair , 2008 .
[68] R. Gans,et al. Über die Form ultramikroskopischer Silberteilchen , 1915 .
[69] M. Broyer,et al. Optical extinction spectroscopy of single silver nanoparticles , 2007 .
[70] David A. Schultz,et al. Plasmon resonant particles for biological detection. , 2003, Current opinion in biotechnology.
[71] Victor I. Klimov,et al. Optical Nonlinearities and Ultrafast Carrier Dynamics in Semiconductor Nanocrystals , 2000 .
[72] E. Coronado,et al. The Optical Properties of Metal Nanoparticles: The Influence of Size, Shape, and Dielectric Environment , 2003 .
[73] M. Pileni,et al. Size-dependent ultrafast electronic energy relaxation and enhanced fluorescence of copper nanoparticles. , 2006, The journal of physical chemistry. B.
[74] Natalia Del Fatti,et al. Femtosecond response of a single metal nanoparticle. , 2006, Nano letters.
[75] B. Draine,et al. Discrete-dipole approximation for periodic targets: theory and tests. , 2008, Journal of the Optical Society of America. A, Optics, image science, and vision.
[76] Christophe Voisin,et al. Ultrafast Electron Dynamics and Optical Nonlinearities in Metal Nanoparticles , 2001 .
[77] L. Andrew Lyon,et al. Unidirectional Plasmon Propagation in Metallic Nanowires , 2000 .
[78] M. El-Sayed,et al. Transition from nanoparticle to molecular behavior: a femtosecond transient absorption study of a size-selected 28 atom gold cluster , 2002 .
[79] Michael B. Pomfret,et al. Coherent Acoustic Oscillations of Nanorods Composed of Various Metals , 2009 .
[80] A. Henglein,et al. Small-particle research: physicochemical properties of extremely small colloidal metal and semiconductor particles , 1989 .
[81] Robert L. Whetten,et al. Isolation of Smaller Nanocrystal Au Molecules: Robust Quantum Effects in Optical Spectra , 1997 .
[82] Laurent Cognet,et al. Photothermal heterodyne imaging of individual metallic nanoparticles: Theory versus experiment , 2006 .
[83] Wei Qian,et al. Coherent Vibrational Oscillation in Gold Prismatic Monolayer Periodic Nanoparticle Arrays , 2004 .
[84] Philippe Guyot-Sionnest,et al. Synthesis and Optical Characterization of Au/Ag Core/Shell Nanorods , 2004 .
[85] L. Cognet,et al. Luminescence decay and the absorption cross section of individual single-walled carbon nanotubes. , 2008, Physical Review Letters.
[86] Keiko Munechika,et al. Plasmon Line Widths of Single Silver Nanoprisms as a Function of Particle Size and Plasmon Peak Position , 2007 .
[87] 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.
[88] J. Hafner,et al. Plasmon resonances of a gold nanostar. , 2007, Nano letters.
[89] G. Hartland,et al. Spectroscopy and Dynamics of Nanometer-Sized Noble Metal Particles , 1998 .
[90] R. Kubo. Electronic Properties of Metallic Fine Particles. I. , 1962 .
[91] G. Schatz,et al. Confined plasmons in nanofabricated single silver particle pairs: experimental observations of strong interparticle interactions. , 2005, The journal of physical chemistry. B.
[93] W. Steubing. Über die optischen Eigenschaften kolloidaler Goldlösungen , 2022 .
[94] Peter Nordlander,et al. Nanoparticle-mediated coupling of light into a nanowire. , 2007, Nano letters.
[95] G. Brunklaus,et al. Tuning Plasmonic Properties by Alloying Copper into Gold Nanorods , 2009 .
[96] A. Hohenau,et al. Silver nanowires as surface plasmon resonators. , 2005, Physical review letters.
[97] Jeffrey Bokor,et al. Direct measurement of nonequilibrium electron-energy distributions in subpicosecond laser-heated gold films , 1992 .
[98] Qidai Chen,et al. Study of Electron−Phonon Coupling Dynamics in Au Nanorods by Transient Depolarization Measurements , 2010 .
[99] H. Qian. Cyclic conformational modification of an enzyme: serial engagement, energy relay, hysteretic enzyme, and Fischer's hypothesis. , 2010, The journal of physical chemistry. B.
[100] François Hache,et al. Optical nonlinearities of small metal particles: surface-mediated resonance and quantum size effects , 1986 .
[101] F. Dufey,et al. Short time vibrational dynamics of excited metal nanoparticles , 2007 .
[102] C. Kittel. Introduction to solid state physics , 1954 .
[103] Adam D. McFarland,et al. Single Silver Nanoparticles as Real-Time Optical Sensors with Zeptomole Sensitivity , 2003 .
[104] Paul Mulvaney,et al. Surface Plasmon Spectroscopy of Nanosized Metal Particles , 1996 .
[105] Hristina Petrova,et al. Contributions from radiation damping and surface scattering to the linewidth of the longitudinal plasmon band of gold nanorods: a single particle study. , 2006, Physical chemistry chemical physics : PCCP.
[106] Rudolf O. Müller,et al. Absorption and Scattering of X-Rays , 1972 .
[107] R. Doremus. Optical Properties of Small Silver Particles , 1965 .
[108] M. Orrit,et al. Acoustic oscillations and elastic moduli of single gold nanorods. , 2008, Nano letters.
[109] Jay P. Giblin,et al. Experimental determination of single CdSe nanowire absorption cross sections through photothermal imaging. , 2010, ACS nano.
[110] T. Pradeep,et al. Ligand Exchange of Au25SG18 Leading to Functionalized Gold Clusters: Spectroscopy, Kinetics, and Luminescence , 2008 .
[111] Gerhard A Blab,et al. Photothermal heterodyne imaging of individual nonfluorescent nanoclusters and nanocrystals. , 2004, Physical review letters.
[112] G. Scholes,et al. CdSe nanoparticle elasticity and surface energy. , 2009, Nano letters.
[113] Aurélien Crut,et al. Anisotropy effects on the time-resolved spectroscopy of the acoustic vibrations of nanoobjects. , 2009, Physical chemistry chemical physics : PCCP.
[114] J. Turkevich,et al. Coagulation of Colloidal Gold , 2002 .
[115] Harry A. Atwater,et al. Local detection of electromagnetic energy transport below the diffraction limit in metal nanoparticle plasmon waveguides , 2003, Nature materials.
[116] W. Hampe. Beitrag zur Deutung der anomalen optischen Eigenschaften feinstteiliger Metallkolloide in groer Konzentration: Teil II: Experimentelle Ermittlung der Absorptionskurve und Deutung des Absorptionsmechanismus des Systemes Gold-SiO2 , 1958 .
[117] G. Paulus,et al. Laser-excited acoustic oscillations in silver and bismuth nanowires , 2007 .
[118] R. W. Christy,et al. Optical constants of transition metals: Ti, V, Cr, Mn, Fe, Co, Ni, and Pd , 1974 .
[119] T. Shahbazyan,et al. Vibrational modes of metal nanoshells and bimetallic core-shell nanoparticles. , 2008, The Journal of chemical physics.
[120] S. Reed,et al. Improved Synthesis of Small (dCORE ≈ 1.5 nm) Phosphine-Stabilized Gold Nanoparticles , 2000 .
[121] George C. Schatz,et al. Electrodynamics of Noble Metal Nanoparticles and Nanoparticle Clusters , 1999 .
[122] G. Whitesides,et al. Fabrication of surface plasmon resonators by nanoskiving single-crystalline gold microplates. , 2008, Nano letters.
[123] Luke P. Lee,et al. Nanophotonic crescent moon structures with sharp edge for ultrasensitive biomolecular detection by local electromagnetic field enhancement effect. , 2005, Nano letters.
[124] T. Kondow,et al. Formation and Size Control of Silver Nanoparticles by Laser Ablation in Aqueous Solution , 2000 .
[125] R. Murray,et al. Electrochemistry and optical absorbance and luminescence of molecule-like Au38 nanoparticles. , 2004, Journal of the American Chemical Society.
[126] N. Tamai,et al. Near-IR vibrational dynamics of periodic gold single and pair nanocuboids , 2009 .
[127] M. El-Sayed,et al. Chemistry and properties of nanocrystals of different shapes. , 2005, Chemical reviews.
[128] Acoustic vibrations in nanosized gold-shell particles , 2007 .
[129] C. Aikens,et al. Origin of Discrete Optical Absorption Spectra of M25(SH)18− Nanoparticles (M = Au, Ag) , 2008 .
[130] Younan Xia,et al. Chemical synthesis of novel plasmonic nanoparticles. , 2009, Annual review of physical chemistry.
[131] P. Guyot-Sionnest,et al. Reduced damping of surface plasmons at low temperatures , 2009 .
[132] C. Flytzanis,et al. Electron dynamics and surface plasmon resonance nonlinearities in metal nanoparticles , 2000 .
[133] T. V. Shahbazyan,et al. SIZE-DEPENDENT SURFACE PLASMON DYNAMICS IN METAL NANOPARTICLES , 1998 .
[134] T. Dekorsy,et al. A surface phase transition of supported gold nanoparticles. , 2007, Nano letters.
[135] Joseph M. McLellan,et al. Optical properties of Au-Ag nanoboxes studied by single nanoparticle spectroscopy. , 2006, The journal of physical chemistry. B.
[136] Peter Nordlander,et al. Plasmonic nanostructures: artificial molecules. , 2007, Accounts of chemical research.
[137] R. Murray,et al. Visible Luminescence of Water-Soluble Monolayer-Protected Gold Clusters , 2001 .
[138] G. Schatz,et al. Calculating nonlocal optical properties of structures with arbitrary shape , 2009, 0912.4746.
[139] U. Kreibig,et al. Small silver particles in photosensitive glass: Their nucleation and growth , 1976 .
[140] A. Henglein,et al. Electron-phonon coupling dynamics in very small (between 2 and 8 nm diameter) Au nanoparticles , 2000 .
[141] F. D. Abajo,et al. Nonlocal Effects in the Plasmons of Strongly Interacting Nanoparticles, Dimers, and Waveguides , 2008, 0802.0040.
[142] Bernhard Lamprecht,et al. Non?diffraction-limited light transport by gold nanowires , 2002 .
[143] Luigi Bonacina,et al. Time-resolved photodynamics of triangular-shaped silver nanoplates. , 2006, Nano letters.
[144] Hui Zhang,et al. Immuno gold nanocages with tailored optical properties for targeted photothermal destruction of cancer cells. , 2007, Nano letters.
[145] C. Voisin,et al. Time-resolved investigation of the vibrational dynamics of metal nanoparticles , 2000 .
[146] J. Zou,et al. Interparticle electromagnetic coupling in assembled gold-necklace nanoparticles. , 2007, Journal of the American Chemical Society.
[147] D. Murray,et al. Damping by bulk and shear viscosity of confined acoustic phonons for nanostructures in aqueous solution. , 2007, The journal of physical chemistry. B.
[148] Gregory V. Hartland,et al. Transient Absorption Studies of Single Silver Nanocubes , 2008 .
[149] Ji-Xin Cheng,et al. Hyperthermic effects of gold nanorods on tumor cells. , 2007, Nanomedicine.
[150] G. Hartland,et al. Ultrafast study of electron–phonon coupling in colloidal gold particles , 1998 .
[151] J. Homola. Surface plasmon resonance based sensors , 2006 .
[152] K. Hamad-Schifferli,et al. Selective release of multiple DNA oligonucleotides from gold nanorods. , 2009, ACS nano.
[153] M. Pileni. Control of the Size and Shape of Inorganic Nanocrystals at Various Scales from Nano to Macrodomains , 2007 .
[154] Carsten Sönnichsen,et al. Plasmon resonances in large noble-metal clusters , 2002 .
[155] M. Maillard,et al. Electron-phonon scattering in metal clusters. , 2003, Physical review letters.
[156] Rostislav Bukasov,et al. Highly tunable infrared extinction properties of gold nanocrescents. , 2007, Nano letters.
[157] Mostafa A. El-Sayed,et al. Electron dynamics in gold and gold–silver alloy nanoparticles: The influence of a nonequilibrium electron distribution and the size dependence of the electron–phonon relaxation , 1999 .
[158] Stéphane Berciaud,et al. Observation of intrinsic size effects in the optical response of individual gold nanoparticles. , 2005, Nano letters.
[159] Teri W Odom,et al. Multiscale patterning of plasmonic metamaterials. , 2007, Nature nanotechnology.
[160] Limin Tong,et al. Direct measurements of propagation losses in silver nanowires , 2009, 2009 Asia Communications and Photonics conference and Exhibition (ACP).
[161] Sun,et al. Femtosecond-tunable measurement of electron thermalization in gold. , 1994, Physical review. B, Condensed matter.
[162] M. El-Sayed,et al. Laser-Induced Shape Changes of Colloidal Gold Nanorods Using Femtosecond and Nanosecond Laser Pulses , 2000 .
[163] George C. Schatz,et al. Surface plasmon broadening for arbitrary shape nanoparticles: A geometrical probability approach , 2003 .
[164] Wei Qian,et al. The effect of plasmon field on the coherent lattice phonon oscillation in electron-beam fabricated gold nanoparticle pairs. , 2007, Nano letters.
[165] M. El-Sayed. Small is different: shape-, size-, and composition-dependent properties of some colloidal semiconductor nanocrystals. , 2004, Accounts of chemical research.
[166] Younan Xia,et al. Gold nanostructures: engineering their plasmonic properties for biomedical applications. , 2006, Chemical Society reviews.
[167] G. Hartland,et al. Electronic dephasing in bimetallic gold-silver nanoparticles examined by single particle spectroscopy. , 2005, The journal of physical chemistry. B.
[168] A. Nakamura,et al. Ultrafast relaxation dynamics of electrons in Au clusters capped with dodecanethiol molecules , 2006 .
[169] L. Cognet,et al. Photothermal methods for single nonluminescent nano-objects. , 2008, Analytical chemistry.
[170] A. Henglein,et al. Radiolytic Control of the Size of Colloidal Gold Nanoparticles , 1998 .
[171] Robert L. Whetten,et al. Visible to Infrared Luminescence from a 28-Atom Gold Cluster , 2002 .
[172] D. Son,et al. Ultrafast energy transfer and strong dynamic non-condon effect on ligand field transitions by coherent phonon in gamma-Fe2O3 nanocrystals. , 2007, Journal of the American Chemical Society.
[173] C. Haynes,et al. Nanosphere Lithography: A Versatile Nanofabrication Tool for Studies of Size-Dependent Nanoparticle Optics , 2001 .
[174] J. Zhang,et al. Ultrafast study of electronic relaxation dynamics in Au11 nanoclusters , 2004 .
[175] C. Fragstein,et al. Über die Anomalie der optischen Konstanten , 1958 .
[176] T. Goodson,et al. Quantum-sized gold clusters as efficient two-photon absorbers. , 2008, Journal of the American Chemical Society.
[177] J. Zhang,et al. Femtosecond Electronic Relaxation Dynamics in Metal Nano-Particles: Effects of Surface and Size Confinement , 1996 .
[178] C. Mirkin,et al. Localized surface plasmon resonance spectroscopy of single silver triangular nanoprisms. , 2006, Nano letters.
[179] Effects of confinement on the electron and lattice dynamics in metal nanoparticles , 2005 .
[180] P. Guyot-Sionnest,et al. Damping of acoustic vibrations in gold nanoparticles. , 2009, Nature nanotechnology.
[181] K. Hermansson,et al. Oxygen vacancy formation energy in Pd-doped ceria: a DFT+U study. , 2007, The Journal of chemical physics.
[182] J. Jasieniak,et al. Three-Pulse Photon Echo Peak Shift Measurements of Capped CdSe Quantum Dots , 2010 .
[183] J. D. Gezelter,et al. Simulations of Laser-Induced Glass Formation in Ag−Cu Nanoparticles , 2008 .
[184] Electron-phonon interaction and hot electrons in small metal islands , 1990 .
[185] Adam M. Schwartzberg,et al. Novel Optical Properties and Emerging Applications of Metal Nanostructures , 2008 .
[186] Robert L. Whetten,et al. Optical Absorption Spectra of Nanocrystal Gold Molecules , 1997 .
[187] Stella,et al. Size effects in the ultrafast electronic dynamics of metallic tin nanoparticles. , 1996, Physical review. B, Condensed matter.
[188] Mostafa A. El-Sayed,et al. Effect of the Lattice Crystallinity on the Electron−Phonon Relaxation Rates in Gold Nanoparticles , 2007 .
[189] Arao Nakamura,et al. Subpicosecond time response of third‐order optical nonlinearity of small copper particles in glass , 1994 .
[190] Nassiredin M. Mojarad,et al. Plasmon spectra of nanospheres under a tightly focused beam , 2007, 0711.3649.
[191] A. Henglein,et al. Size dependent properties of Au particles: Coherent excitation and dephasing of acoustic vibrational modes , 1999 .
[192] R. Murray,et al. 28 KDA ALKANETHIOLATE-PROTECTED AU CLUSTERS GIVE ANALOGOUS SOLUTION ELECTROCHEMISTRY AND STM COULOMB STAIRCASES , 1997 .
[193] S. Silvestri,et al. SIZE-DEPENDENT DYNAMICS OF COHERENT ACOUSTIC PHONONS IN NANOCRYSTAL QUANTUM DOTS , 1999 .
[194] R. Whetten,et al. Near-Infrared Luminescence from Small Gold Nanocrystals , 2000 .
[195] Stylianos Tzortzakis,et al. Nonequilibrium electron dynamics in noble metals , 2000 .
[196] A. Crut,et al. Cooling dynamics and thermal interface resistance of glass-embedded metal nanoparticles , 2009, 0912.3058.
[197] George C. Schatz,et al. Plasmon resonance broadening in small metal particles , 1983 .
[198] Glenn P. Goodrich,et al. Scattering Spectra of Single Gold Nanoshells , 2004 .
[199] Antao Chen,et al. Integration of photonic and silver nanowire plasmonic waveguides. , 2008, Nature nanotechnology.
[200] R. V. Van Duyne,et al. Localized surface plasmon resonance spectroscopy and sensing. , 2007, Annual review of physical chemistry.
[201] Philippe Guyot-Sionnest,et al. Mechanism of silver(I)-assisted growth of gold nanorods and bipyramids. , 2005, The journal of physical chemistry. B.
[202] M. El-Sayed,et al. The `lightning' gold nanorods: fluorescence enhancement of over a million compared to the gold metal , 2000 .
[203] Guang-Can Guo,et al. Coupling of light from an optical fiber taper into silver nanowires , 2009, 0906.0405.
[204] Younan Xia,et al. Synthesis and optical properties of silver nanobars and nanorice. , 2007, Nano letters.
[205] Michel Orrit,et al. A common-path interferometer for time-resolved and shot-noise-limited detection of single nanoparticles. , 2006, Optics express.
[206] Gary L. Eesley,et al. Observation of Nonequilibrium Electron Heating in Copper , 1983 .
[207] C. Sorensen,et al. Gram-scale synthesis of monodisperse gold colloids by the solvated metal atom dispersion method and digestive ripening and their organization into two- and three-dimensional structures. , 2002, Journal of the American Chemical Society.
[208] L. Liz‐Marzán,et al. Quantitative determination of the size dependence of surface plasmon resonance damping in single Ag@SiO(2) nanoparticles. , 2009, Nano letters.
[209] M. El-Sayed,et al. Electron Dynamics of Passivated Gold Nanocrystals Probed by Subpicosecond Transient Absorption Spectroscopy , 1997 .
[210] Christian Dahmen,et al. Laser-induced heating and melting of gold nanoparticles studied by time-resolved x-ray scattering , 2004 .
[211] Pierre Berini,et al. Long-range surface plasmon-polariton mode cutoff and radiation in embedded strip waveguides , 2006 .
[212] A. Henglein,et al. Tuning the spectral and temporal response in PtAu core–shell nanoparticles , 2001 .
[213] A. Takami,et al. Laser-Induced Size Reduction of Noble Metal Particles , 1999 .
[214] Hristina Petrova,et al. Investigation of the properties of gold nanoparticles in aqueous solution at extremely high lattice temperatures , 2004 .
[215] Storz,et al. Electron thermalization in gold. , 1992, Physical review. B, Condensed matter.
[216] Metal nanoparticles in strongly confined beams: transmission, reflection and absorption , 2009, 0901.4572.
[217] M. Broyer,et al. Probing elasticity at the nanoscale: Terahertz acoustic vibration of small metal nanoparticles. , 2010, Nano letters.
[218] Gyoujin Cho,et al. Comparative Investigation of Energy Relaxation Dynamics of Gold Nanoparticles and Gold−Polypyrrole Encapsulated Nanoparticles , 2003 .
[219] Michel Orrit,et al. Detection of acoustic oscillations of single gold nanospheres by time-resolved interferometry. , 2005, Physical review letters.
[220] Yun Tang,et al. Tailoring properties and functionalities of metal nanoparticles through crystallinity engineering. , 2007, Nature materials.
[221] James P. Gordon,et al. Radiation Damping in Surface-Enhanced Raman Scattering , 1982 .
[222] R. Murray,et al. Gold nanoelectrodes of varied size: transition to molecule-like charging , 1998, Science.
[223] S. Link,et al. Single-Particle Spectroscopy of Gold Nanorods beyond the Quasi-Static Limit: Varying the Width at Constant Aspect Ratio , 2010 .
[224] J. Sader,et al. Theory of Acoustic Breathing Modes of Core−Shell Nanoparticles , 2002 .
[225] Norbert F. Scherer,et al. Ultrafast Dephasing of Single Nanoparticles Studied by Two-Pulse Second-Order Interferometry , 2001 .
[226] R. Murray,et al. Nonlinear Optical Signatures of Core and Ligand Electronic States in Au24PdL18 , 2010 .
[227] J. West,et al. Immunotargeted nanoshells for integrated cancer imaging and therapy. , 2005, Nano letters.
[228] G. Mie. Beiträge zur Optik trüber Medien, speziell kolloidaler Metallösungen , 1908 .
[229] C. Murphy,et al. Anisotropic metal nanoparticles: Synthesis, assembly, and optical applications. , 2005, The journal of physical chemistry. B.
[230] A. J. Nijdam,et al. Nanotechnologies for biomolecular detection and medical diagnostics. , 2006, Current opinion in chemical biology.
[231] Younan Xia,et al. Observation of plasmon propagation, redirection, and fan-out in silver nanowires. , 2006, Nano letters.
[232] Arisato Kawabata,et al. Electronic Properties of Fine Metallic Particles. II. Plasma Resonance Absorption , 1966 .
[233] G. Hartland. Electron-phonon coupling and heat dissipation in metal nanoparticles , 2004 .
[234] T. Goodson,et al. Optically excited acoustic vibrations in quantum-sized monolayer-protected gold clusters. , 2010, ACS nano.
[235] H. S. Carslaw,et al. Introduction to the Mathematical Theory of the Conduction of Heat in Solids , 1922 .
[236] Olaf Schubert,et al. Gold nanoparticle growth monitored in situ using a novel fast optical single-particle spectroscopy method. , 2007, Nano letters.
[237] A. Henglein,et al. Radiolytic Preparation of Ultrafine Colloidal Gold Particles in Aqueous Solution: Optical Spectrum, Controlled Growth, and Some Chemical Reactions , 1999 .
[238] G. Hartland,et al. Vibrational Dynamics of Silver Nanocubes and Nanowires Studied by Single‐Particle Transient Absorption Spectroscopy , 2008 .
[239] Viola Vogel,et al. Interferometric optical detection and tracking of very small gold nanoparticles at a water-glass interface. , 2006, Optics express.
[240] Paul Mulvaney,et al. Vibrational response of nanorods to ultrafast laser induced heating: theoretical and experimental analysis. , 2003, Journal of the American Chemical Society.
[241] U. Kreibig,et al. Electronic properties of small silver particles: the optical constants and their temperature dependence , 1974 .
[242] D. Son,et al. Time-Dependent Elastic Properties and Lattice Temperature of the Photoexcited Iron Oxide Nanocrystals , 2008 .
[243] 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 .
[244] P. Berini,et al. Experimental observation of plasmon polariton waves supported by a thin metal film of finite width. , 2000, Optics letters.
[245] Mona B. Mohamed,et al. Femtosecond transient-absorption dynamics of colloidal gold nanorods: Shape independence of the electron-phonon relaxation time , 2000 .
[246] Zhiping Luo,et al. Observation of coherent acoustic and optical phonons in bismuth nanowires by a femtosecond pump-probe technique , 2008 .
[247] Dimitris Christofilos,et al. Optical response of a single gold nanoparticle , 2008 .
[248] J. Bigot,et al. Size dependence of the energy relaxation in silver nanoparticles embedded in dielectric matrices , 1999 .
[249] P. Tomchuk,et al. Surface electron-phonon energy exchange in small metallic particles , 1992 .
[250] M. Moskovits,et al. Hot spots in silver nanowire bundles for surface-enhanced Raman spectroscopy. , 2006, Journal of the American Chemical Society.
[251] Eric Bourillot,et al. Direct observation of localized surface plasmon coupling , 1999 .
[252] C. Afonso,et al. Acoustic vibration modes and electron-lattice coupling in self-assembled silver nanocolumns. , 2008, Nano letters.
[253] N. Scherer,et al. Ultrafast Resonant Dynamics of Surface Plasmons in Gold Nanorods , 2007 .
[254] G. Hartland,et al. Picosecond Dynamics of Silver Nanoclusters. Photoejection of Electrons and Fragmentation , 1998 .
[255] J. Barrat,et al. Heat transfer from nanoparticles: A corresponding state analysis , 2009, Proceedings of the National Academy of Sciences.
[256] J. Hafner,et al. Optical properties of star-shaped gold nanoparticles. , 2006, Nano letters.
[257] Joseph M. McLellan,et al. Time-resolved spectroscopy of silver nanocubes: observation and assignment of coherently excited vibrational modes. , 2007, The Journal of chemical physics.
[258] D. Choquet,et al. Single metallic nanoparticle imaging for protein detection in cells , 2003, Proceedings of the National Academy of Sciences of the United States of America.
[259] Gregory V Hartland,et al. Coherent excitation of vibrational modes in metallic nanoparticles. , 2006, Annual review of physical chemistry.
[260] J. Sader,et al. Coherent Excitation of Vibrational Modes in Gold Nanorods , 2002 .
[261] W. Barnes,et al. Surface plasmon subwavelength optics , 2003, Nature.
[262] C. Noguez. Surface Plasmons on Metal Nanoparticles: The Influence of Shape and Physical Environment , 2007 .
[263] Robert L. Whetten,et al. Isolation and Selected Properties of a 10.4 kDa Gold:Glutathione Cluster Compound , 1998 .
[264] Otto L. Muskens,et al. Quantitative Absorption Spectroscopy of a Single Gold Nanorod , 2008 .
[265] Gregory V. Hartland,et al. Heat Dissipation for Au Particles in Aqueous Solution: Relaxation Time versus Size , 2002 .
[266] J. Melinger,et al. Ultrafast Dynamics of Gold-Based Nanocomposite Materials† , 2003 .
[267] John E. Sader,et al. Softening of the symmetric breathing mode in gold particles by laser-induced heating , 2003 .
[268] James R. Heath,et al. Synthesis and Characterization of Hydrophobic, Organically-Soluble Gold Nanocrystals Functionalized with Primary Amines , 1996 .
[269] C. Voisin,et al. Coherent acoustic mode oscillation and damping in silver nanoparticles , 1999 .
[270] Peidong Yang,et al. Direct photonic–plasmonic coupling and routing in single nanowires , 2009, Proceedings of the National Academy of Sciences.
[271] Harald Ditlbacher,et al. Plasmon dispersion relation of Au and Ag nanowires , 2003 .
[272] L. Liz‐Marzán,et al. Heat dissipation in gold–silica core-shell nanoparticles , 2003 .
[273] R. W. Christy,et al. Optical Constants of the Noble Metals , 1972 .
[274] Andrew R. Siekkinen,et al. Vibrational response of Au-Ag nanoboxes and nanocages to ultrafast laser-induced heating. , 2007, Nano letters.
[275] Wei Qian,et al. The optically detected coherent lattice oscillations in silver and gold monolayer periodic nanoprism arrays: the effect of interparticle coupling. , 2005, The journal of physical chemistry. B.
[276] Ulrike Woggon,et al. Surface plasmon mediated interference phenomena in low-q silver nanowire cavities. , 2008, Nano letters.
[277] M. El-Sayed,et al. Picosecond Dynamics of Colloidal Gold Nanoparticles , 1996 .
[278] Philippe Guyot-Sionnest,et al. Dielectric Sensing with Deposited Gold Bipyramids , 2008 .
[279] Mostafa A. El-Sayed,et al. Alloy Formation of Gold−Silver Nanoparticles and the Dependence of the Plasmon Absorption on Their Composition , 1999 .
[280] Chad A. Mirkin,et al. Programmed Materials Synthesis with DNA. , 1999, Chemical reviews.
[281] M. Broyer,et al. Optical properties and relaxation processes at femtosecond scale of bimetallic clusters. , 2008, Faraday discussions.
[282] T. Klar,et al. Biomolecular Recognition Based on Single Gold Nanoparticle Light Scattering , 2003 .
[283] Jau Tang,et al. Photoinduced Structural Dynamics in Laser-Heated Nanomaterials of Various Shapes and Sizes. , 2008 .
[284] Brahim Lounis,et al. Photothermal Imaging of Nanometer-Sized Metal Particles Among Scatterers , 2002, Science.
[285] Kenjiro Miyano,et al. Resonant light scattering from metal nanoparticles: Practical analysis beyond Rayleigh approximation , 2003 .
[286] Guglielmo Lanzani,et al. COHERENT ACOUSTIC OSCILLATIONS IN METALLIC NANOPARTICLES GENERATED WITH FEMTOSECOND OPTICAL PULSES , 1997 .
[287] Fujimoto,et al. Femtosecond electronic heat-transport dynamics in thin gold films. , 1987, Physical review letters.
[288] B. Perrin. Investigation of Short-Time Heat Transfer Effects by an Optical Pump-Probe Method , 2007 .
[289] Merle,et al. Electron dynamics in copper metallic nanoparticles probed with femtosecond optical pulses. , 1995, Physical review letters.
[290] Bernhard Lamprecht,et al. Spectroscopy of single metallic nanoparticles using total internal reflection microscopy , 2000 .
[291] C. Zener. INTERNAL FRICTION IN SOLIDS. I. THEORY OF INTERNAL FRICTION IN REEDS , 1937 .
[292] Louis E. Brus,et al. Fluctuations and Local Symmetry in Single-Molecule Rhodamine 6G Raman Scattering on Silver Nanocrystal Aggregates † , 2002 .
[293] M. Broyer,et al. Absolute optical extinction measurements of single nano-objects by spatial modulation spectroscopy using a white lamp. , 2010, The Review of scientific instruments.
[294] J. West,et al. Near-infrared resonant nanoshells for combined optical imaging and photothermal cancer therapy. , 2007, Nano letters.
[295] M. Broyer,et al. Correlation between the Extinction Spectrum of a Single Metal Nanoparticle and Its Electron Microscopy Image , 2008 .
[296] Luis M Liz-Marzán,et al. Shape control in gold nanoparticle synthesis. , 2008, Chemical Society reviews.
[297] Peter Nordlander,et al. Optical properties of metallodielectric nanostructures calculated using the finite difference time domain method , 2004 .
[298] Maris,et al. Electron diffusion in metals studied by picosecond ultrasonics. , 1994, Physical review. B, Condensed matter.
[299] R. Murray,et al. Crystal structure of the gold nanoparticle [N(C8H17)4][Au25(SCH2CH2Ph)18]. , 2008, Journal of the American Chemical Society.
[300] Paul V. Braun,et al. AuPd Metal Nanoparticles as Probes of Nanoscale Thermal Transport in Aqueous Solution , 2004 .
[301] J. Zhang,et al. Direct probe of size-dependent electronic relaxation in single-sized Au and nearly monodisperse Pt colloidal nano-particles , 1997 .
[302] M. Orrit,et al. Absorption and scattering microscopy of single metal nanoparticles. , 2006, Physical chemistry chemical physics : PCCP.
[303] A. Plech,et al. Cavitation dynamics on the nanoscale , 2005 .
[304] G. Hartland. Coherent vibrational motion in metal particles: Determination of the vibrational amplitude and excitation mechanism , 2002 .
[305] B. Nikoobakht,et al. Medium Effect on the Electron Cooling Dynamics in Gold Nanorods and Truncated Tetrahedra , 2003 .
[306] G. Hartland,et al. Photothermal Properties of Gold Nanoparticles , 2007 .
[307] Salvatore Stagira,et al. ULTRAFAST ELECTRONIC DYNAMICS IN SOLID AND LIQUID GALLIUM NANOPARTICLES , 1997 .
[308] J. D. Gezelter,et al. Breathing mode dynamics and elastic properties of gold nanoparticles. , 2005, The journal of physical chemistry. B.
[309] Logan K. Ausman,et al. Methods for describing the electromagnetic properties of silver and gold nanoparticles. , 2008, Accounts of chemical research.
[310] M. El-Sayed,et al. Laser photothermal melting and fragmentation of gold nanorods: Energy and laser pulse-width dependence , 1999 .
[311] Michael Vollmer,et al. Optical properties of metal clusters , 1995 .
[312] Philippe Guyot-Sionnest,et al. Ultrafast resonant optical scattering from single gold nanorods: Large nonlinearities and plasmon saturation , 2005 .
[313] V. Gusev,et al. Ultrafast nonequilibrium dynamics of electrons in metals , 1998 .
[314] P. Nordlander,et al. Finite-difference time-domain studies of the optical properties of nanoshell dimers. , 2005, The journal of physical chemistry. B.
[315] U. Kreibig,et al. OPTICAL ABSORPTION OF SMALL METALLIC PARTICLES , 1985 .
[316] G. Hartland,et al. Coherent Excitation of Acoustic Breathing Modes in Bimetallic Core−Shell Nanoparticles , 2000 .
[317] Xiaohua Huang,et al. Cancer cell imaging and photothermal therapy in the near-infrared region by using gold nanorods. , 2006, Journal of the American Chemical Society.
[318] Otto L. Muskens,et al. OPTICAL EXTINCTION SPECTRUM OF A SINGLE METAL NANOPARTICLE: QUANTITATIVE CHARACTERIZATION OF A PARTICLE AND OF ITS LOCAL ENVIRONMENT , 2008 .
[319] Jonathan A. Fan,et al. Influence of excitation and collection geometry on the dark field spectra of individual plasmonic nanostructures. , 2010, Optics express.
[320] M. Broyer,et al. Direct measurement of the single-metal-cluster optical absorption. , 2004, Physical review letters.
[321] Vallee,et al. Size-dependent electron-electron interactions in metal nanoparticles , 2000, Physical review letters.
[322] R. Murray,et al. Near-IR luminescence of monolayer-protected metal clusters. , 2005, Journal of the American Chemical Society.
[323] T. Goodson,et al. Critical size for the observation of quantum confinement in optically excited gold clusters. , 2010, Journal of the American Chemical Society.
[324] M. El-Sayed,et al. Spectral Properties and Relaxation Dynamics of Surface Plasmon Electronic Oscillations in Gold and Silver Nanodots and Nanorods , 1999 .
[325] T. Cardinal,et al. Coherent acoustic vibration of metal nanoshells. , 2007, Nano letters.
[326] L. Zhigilei,et al. Explosive Boiling of Water Films Adjacent to Heated Surfaces: A Microscopic Description † , 2001 .
[327] R. G. Freeman,et al. Submicrometer metallic barcodes. , 2001, Science.
[328] W. Doyle. Absorption of Light by Colloids in Alkali Halide Crystals , 1958 .
[329] Younan Xia,et al. One‐Dimensional Nanostructures: Synthesis, Characterization, and Applications , 2003 .
[330] Alaaldin M. Alkilany,et al. Gold nanoparticles in biology: beyond toxicity to cellular imaging. , 2008, Accounts of chemical research.
[331] Horace Lamb,et al. On the Vibrations of an Elastic Sphere , 1881 .