Microchip‐Based Flow Cytometry in Photonic Sensing: Principles and Applications for Safety and Security Monitoring

[1]  D. Chiu,et al.  Rapid prototyping of glass microchannels , 2003 .

[2]  Gwo-Bin Lee,et al.  Hydrodynamic Focusing for a Micromachined Flow Cytometer , 2001 .

[3]  Benjamin R. Watts,et al.  Formation and characterization of an ideal excitation beam geometry in an optofluidic device , 2010, Biomedical optics express.

[4]  R R Jonker,et al.  Design and first results of CytoBuoy: a wireless flow cytometer for in situ analysis of marine and fresh waters. , 1999, Cytometry.

[5]  C. Bliss,et al.  Rapid fabrication of a microfluidic device with integrated optical waveguides for DNA fragment analysis. , 2007, Lab on a chip.

[6]  Alex Groisman,et al.  Two-dimensional hydrodynamic focusing in a simple microfluidic device , 2005 .

[7]  Chen-Min Chang,et al.  Micro Flow Cytometer Chip Integrated with Micro-Pumps/Micro-Valves for Multi-Wavelength Cell Counting and Sorting , 2007 .

[8]  Hyeon Cheol Kim,et al.  Fabricaton of Poly(dimethylsiloxane) Microlens for Laser-Induced Fluorescence Detection , 2006 .

[9]  N Wedemeyer,et al.  Flow cytometry: an ‘old’ tool for novel applications in medical genetics , 2001, Clinical genetics.

[10]  Andreas Neyer,et al.  PDMS microfluidic chip with integrated waveguides for optical detection , 2006 .

[11]  F. Behm,et al.  Immunophenotyping of leukemia. , 2000, Journal of immunological methods.

[12]  M. Borowitz,et al.  Flow cytometry in the diagnosis of acute leukemia. , 2001, Seminars in hematology.

[13]  M. Kokoris,et al.  Rare cancer cell analyzer for whole blood applications: microcytometer cell counting and sorting subcircuits. , 2005, Methods.

[14]  G. Garratty,et al.  Applications of flow cytofluorometry to red blood cell immunology. , 1999, Cytometry.

[15]  Integrated chemical systems on microchips for analysis and assay. Potential future, mobile high-performance detection system for chemical weapons , 2002 .

[16]  S. Quake,et al.  A microfabricated fluorescence-activated cell sorter , 1999, Nature Biotechnology.

[17]  M. Packirisamy,et al.  Enhanced fluorescence‐based bio‐detection through selective integration of reflectors in microfluidic lab‐on‐a‐chip , 2008 .

[18]  M Al-Rubeai,et al.  Using the Microcyte Flow Cytometer To Monitor Cell Number, Viability, and Apoptosis in Mammalian Cell Culture , 2000, Biotechnology progress.

[19]  J. McSharry,et al.  Uses of flow cytometry in virology , 1994, Clinical Microbiology Reviews.

[20]  M. Roederer,et al.  A practical approach to multicolor flow cytometry for immunophenotyping. , 2000, Journal of immunological methods.

[21]  C. Nombela,et al.  Applications of Flow Cytometry to Clinical Microbiology , 2000, Clinical Microbiology Reviews.

[22]  K. Mayora,et al.  A new SU-8 process to integrate buried waveguides and sealed microchannels for a Lab-on-a-Chip , 2006 .

[23]  Alex Groisman,et al.  High-throughput and high-resolution flow cytometry in molded microfluidic devices. , 2006, Analytical chemistry.

[24]  T. Fleisher,et al.  Cell function-based flow cytometry. , 2001, Seminars in hematology.

[25]  G. Dubelaar,et al.  CytoBuoy: a step forward towards using flow cytometry in operational oceanography* , 2000 .

[26]  Daniel L. Feeback,et al.  Microfabrication and test of a three-dimensional polymer hydro-focusing unit for flow cytometry applications , 2005 .

[27]  Gwo-Bin Lee,et al.  Electrokinetically driven micro flow cytometers with integrated fiber optics for on-line cell/particle detection , 2004 .

[28]  A. M. Jorgensen,et al.  Lab-on-a-chip with integrated optical transducers. , 2006, Lab on a chip.

[29]  T. Huang,et al.  Single-layer planar on-chip flow cytometer using microfluidic drifting based three-dimensional (3D) hydrodynamic focusing. , 2009, Lab on a chip.

[30]  Matthew M. Ferris,et al.  Rapid enumeration of respiratory viruses. , 2002, Analytical chemistry.

[31]  C. Bliss,et al.  Integrated wavelength-selective optical waveguides for microfluidic-based laser-induced fluorescence detection. , 2008, Lab on a chip.

[32]  G. Whitesides,et al.  Rapid Prototyping of Microfluidic Systems in Poly(dimethylsiloxane). , 1998, Analytical chemistry.

[33]  Ruey-Jen Yang,et al.  Three-dimensional hydrodynamic focusing in two-layer polydimethylsiloxane (PDMS) microchannels , 2007 .

[34]  Hee Chan Kim,et al.  Recent advances in miniaturized microfluidic flow cytometry for clinical use , 2007, Electrophoresis.

[35]  S. Quake,et al.  An Integrated Microfabricated Cell Sorter , 2022 .

[36]  A D Stroock,et al.  An integrated fluorescence detection system in poly(dimethylsiloxane) for microfluidic applications. , 2001, Analytical chemistry.

[37]  V. Lien,et al.  High-sensitivity cytometric detection using fluidic-photonic integrated circuits with array waveguides , 2005, IEEE Journal of Selected Topics in Quantum Electronics.

[38]  Yuejun Kang,et al.  Simultaneous particle counting and detecting on a chip. , 2008, Lab on a chip.

[39]  Xudong Cao,et al.  Highly efficient dual-channel cytometric-detection of micron-sized particles in microfluidic device , 2011 .

[40]  L A Sklar,et al.  High throughput flow cytometry. , 2001, Cytometry.

[41]  Benjamin R. Watts,et al.  Fabrication of Photonic/Microfluidic Integrated Devices Using an Epoxy Photoresist , 2010 .

[42]  Nancy L Allbritton,et al.  CRITICAL REVIEW www.rsc.org/loc | Lab on a Chip Analysis of single mammalian cells on-chip , 2006 .

[43]  R. Braylan,et al.  Flow cytometric analysis of lymphomas and lymphoproliferative disorders. , 2001, Seminars in hematology.

[44]  M. Roederer,et al.  8 color, 10-parameter flow cytometry to elucidate complex leukocyte heterogeneity. , 1997, Cytometry.

[45]  Nobuyasu Yamaguchi,et al.  Rapid and Simple Quantification of Bacterial Cells by Using a Microfluidic Device , 2005, Applied and Environmental Microbiology.

[46]  Petra Schwille,et al.  An integrated microfluidic system for reaction, high-sensitivity detection, and sorting of fluorescent cells and particles. , 2003, Analytical chemistry.

[47]  W. Kindermann,et al.  Flow Cytometry , 1995, Sports medicine.

[48]  Luke P. Lee,et al.  Disposable integrated microfluidics with self-aligned planar microlenses , 2004 .

[49]  Gwo-Bin Lee,et al.  Micro flow cytometers with buried SU-8/SOG optical waveguides , 2003 .

[50]  N. Sundararajan,et al.  Three-dimensional hydrodynamic focusing in polydimethylsiloxane (PDMS) microchannels , 2004, Journal of Microelectromechanical Systems.

[51]  H Fujita,et al.  PDMS 2D optical lens integrated with microfluidic channels: principle and characterization. , 2003, Lab on a chip.

[52]  Gwo-Bin Lee,et al.  A Micromachine-Based Flow Cytometer Chip Integrated with Micro-Pumps/Valves for Multi-Wavelength Detection Applications , 2006 .

[53]  M. McClain,et al.  Flow cytometry of Escherichia coli on microfluidic devices. , 2001, Analytical chemistry.

[54]  Z. Darżynkiewicz,et al.  Flow cytometry in analysis of cell cycle and apoptosis. , 2001, Seminars in hematology.

[55]  V. Lien,et al.  Fluidic photonic integrated circuit for in-line detection , 2005 .

[56]  A. Manz,et al.  Micro total analysis systems. Latest advancements and trends. , 2006, Analytical chemistry.

[57]  P. Chattopadhyay,et al.  Seventeen-colour flow cytometry: unravelling the immune system , 2004, Nature Reviews Immunology.

[58]  K. Mogensen,et al.  Integration of polymer waveguides for optical detection in microfabricated chemical analysis systems. , 2003, Applied optics.

[59]  D. Kell,et al.  Flow cytometry and cell sorting of heterogeneous microbial populations: the importance of single-cell analyses. , 1996, Microbiological reviews.

[60]  J. Michael Ramsey,et al.  The burgeoning power of the shrinking laboratory , 1999, Nature Biotechnology.

[61]  K. Kurabayashi,et al.  PDMS-based opto-fluidic micro flow cytometer with two-color, multi-angle fluorescence detection capability using PIN photodiodes , 2004 .

[62]  M. Roederer,et al.  11-color, 13-parameter flow cytometry: Identification of human naive T cells by phenotype, function, and T-cell receptor diversity , 2001, Nature Medicine.

[63]  Nolan,et al.  Flow cytometry: a versatile tool for all phases of drug discovery. , 1999, Drug discovery today.

[64]  Tony Jun Huang,et al.  "Microfluidic drifting"--implementing three-dimensional hydrodynamic focusing with a single-layer planar microfluidic device. , 2007, Lab on a chip.

[65]  T. Liao,et al.  A cell counting/sorting system incorporated with a microfabricated flow cytometer chip , 2006 .

[66]  J. Eijkel,et al.  A microfluidic device with an integrated waveguide beam splitter for velocity measurements of flowing particles by Fourier transformation. , 2003, Analytical chemistry.

[67]  K. Mogensen,et al.  Measurements of scattered light on a microchip flow cytometer with integrated polymer based optical elements. , 2004, Lab on a chip.

[68]  J V Giorgi,et al.  Early effects of HIV on CD4 lymphocytes in vivo. , 1987, Journal of immunology.

[69]  H. Steen,et al.  Escherichia coli growth studied by dual-parameter flow cytophotometry , 1981, Journal of bacteriology.

[70]  J. Hahn,et al.  Integrated light collimating system for extended optical-path-length absorbance detection in microchip-based capillary electrophoresis. , 2005, Analytical chemistry.

[71]  J. Michael Ramsey,et al.  Microchip flow cytometry using electrokinetic focusing. , 1999, Analytical chemistry.

[72]  Suz-Kai Hsiung,et al.  A microfabricated capillary electrophoresis chip with multiple buried optical fibers and microfocusing lens for multiwavelength detection , 2005, Electrophoresis.

[73]  Zhao-Lun Fang,et al.  Laser-induced fluorescence detection system for microfluidic chips based on an orthogonal optical arrangement. , 2006, Analytical chemistry.

[74]  H. Steen,et al.  Applications of flow cytometry on bacteria: cell cycle kinetics, drug effects, and quantitation of antibody binding. , 2005, Cytometry.