Recent developments in optical detection methods for microchip separations

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[23]  Emanuel Carrilho,et al.  Semiquantitative determination of Alicyclobacillus acidoterrestris in orange juice by reverse‐ transcriptase polymerase chain reaction and capillary electrophoresis – laser induced fluorescence using microchip technology , 2004, Electrophoresis.

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[33]  S. Shao,et al.  Highly sensitive determination of the methylated p16 gene in cancer patients by microchip electrophoresis. , 2005, Journal of chromatography. B, Analytical technologies in the biomedical and life sciences.

[34]  Weidong Cao,et al.  Microchip capillary electrophoresis with an integrated indium tin oxide electrode-based electrochemiluminescence detector. , 2003, Analytical chemistry.

[35]  A. Skelley,et al.  Chiral separation of fluorescamine-labeled amino acids using microfabricated capillary electrophoresis devices for extraterrestrial exploration. , 2003, Journal of chromatography. A.

[36]  Bingcheng Lin,et al.  Analysis of multiplex PCR fragments with PMMA microchip , 2006, Talanta.

[37]  Jicun Ren,et al.  On‐line chemiluminescence detection for isoelectric focusing of heme proteins on microchips , 2005, Electrophoresis.

[38]  Y. Baba,et al.  Ultrafast analysis of oligosaccharides on microchip with light‐emitting diode confocal fluorescence detection , 2003, Electrophoresis.

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

[40]  Erkang Wang,et al.  Electrochemiluminescence detection with integrated indium tin oxide electrode on electrophoretic microchip for direct bioanalysis of lincomycin in the urine. , 2004, Journal of chromatography. B, Analytical technologies in the biomedical and life sciences.

[41]  B. Lin,et al.  Native fluorescence detection of flavin derivatives by microchip capillary electrophoresis with laser-induced fluorescence intensified charge-coupled device detection. , 2004, Journal of chromatography. A.

[42]  Shu-Hui Chen,et al.  Microchip electrophoresis with hydrodynamic injection and waste-removing function for quantitative analysis. , 2004, Journal of chromatography. A.

[43]  B. Lin,et al.  Rapid authentication of ginseng species using microchip electrophoresis with laser-induced fluorescence detection , 2005, Analytical and bioanalytical chemistry.

[44]  M. Schwarz,et al.  Affinity capillary electrophoresis on microchips. , 2005, Journal of chromatography. A.

[45]  Rapid serial analysis of multiple oligonucleotide samples on a microchip using optically-gated injection. , 2003, Journal of chromatography. A.

[46]  N. Kaji,et al.  Characterization of electrophoretic behavior of sugar isomers by microchip electrophoresis coupled with videomicroscopy. , 2003, Analytical chemistry.

[47]  Hizuru Nakajima,et al.  Detection method for microchip separations , 2004, Analytical and bioanalytical chemistry.

[48]  Andrew N. Carr,et al.  Determination of endogenous extracellular signal-regulated protein kinase by microchip capillary electrophoresis. , 2003, Analytical biochemistry.

[49]  Liduo Wang,et al.  A microfluidic device using a green organic light emitting diode as an integrated excitation source. , 2005, Lab on a chip.

[50]  Tatsuro Nakagama,et al.  Fabrication of an integrated PDMS microchip incorporating an LED-induced fluorescence device , 2005, Analytical and bioanalytical chemistry.

[51]  X. Zhang,et al.  Comprehensive two‐dimensional separations based on capillary high‐performance liquid chromatography and microchip electrophoresis , 2003, Electrophoresis.

[52]  Steven M Cramer,et al.  On-chip electrochromatography using sol-gel immobilized stationary phase with UV absorbance detection. , 2004, Journal of chromatography. A.

[53]  Frank Kohler,et al.  High‐speed chiral separations on a microchip with UV detection , 2003, Electrophoresis.

[54]  J. Hahn,et al.  Precolumn diastereomerization and micellar electrokinetic chromatography on a plastic microchip: Rapid chiral analysis of amino acids , 2005, Electrophoresis.

[55]  T. Imasaka,et al.  Hadamard transform microchip electrophoresis combined with diode laser fluorometry. , 2003, Analytical chemistry.

[56]  Robert T Kennedy,et al.  Microfluidic electrophoresis chip coupled to microdialysis for in vivo monitoring of amino acid neurotransmitters. , 2005, Analytical chemistry.

[57]  E. Wang,et al.  Microchip capillary electrophoresis with solid-state electrochemiluminescence detector. , 2005, Analytical chemistry.

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[61]  Gang Chen,et al.  Monitoring environmental pollutants by microchip capillary electrophoresis with electrochemical detection. , 2006, Talanta.

[62]  A. Manz,et al.  Micro total analysis systems. Recent developments. , 2004, Analytical chemistry.

[63]  Y. Baba,et al.  Analysis of lipoproteins by microchip electrophoresis with high speed and high reproducibility. , 2005, Analytical chemistry.

[64]  Noritada Kaji,et al.  Rapid analysis of oligosaccharides derived from glycoproteins by microchip electrophoresis. , 2006, Journal of chromatography. A.

[65]  Qingming Luo,et al.  Microfluidic chip toward cellular ATP and ATP-conjugated metabolic analysis with bioluminescence detection. , 2005, Analytical chemistry.

[66]  T. Hirokawa,et al.  High-sensitivity capillary gel electrophoretic analysis of DNA fragments on an electrophoresis microchip using electrokinetic injection with transient isotachophoretic preconcentration. , 2003, Journal of chromatography. A.

[67]  Frank Kohler,et al.  Deep UV laser-induced fluorescence detection of unlabeled drugs and proteins in microchip electrophoresis. , 2005, Analytical chemistry.

[68]  Bifeng Liu,et al.  Subsecond separation of cellular flavin coenzymes by microchip capillary electrophoresis with laser-induced fluorescence detection. , 2003, Journal of chromatography. A.

[69]  B. Helk,et al.  Chip-based gel electrophoresis method for the quantification of half-antibody species in IgG4 and their by- and degradation products. , 2004, Analytical biochemistry.

[70]  Masaaki Yamada,et al.  Capillary electrophoresis microchip coupled with on-line chemiluminescence detection , 2004 .

[71]  Zhao-Lun Fang,et al.  Simultaneous determination of glutathione and reactive oxygen species in individual cells by microchip electrophoresis , 2005, Electrophoresis.

[72]  Bifeng Liu,et al.  Chemiluminescence detection for a microchip capillary electrophoresis system fabricated in poly(dimethylsiloxane). , 2003, Analytical chemistry.

[73]  Rapid analysis of genetically modified organisms by in‐house developed capillary electrophoresis chip and laser‐induced fluorescence system , 2004, Electrophoresis.

[74]  Kazushi Fujimoto,et al.  On-chip micellar electrokinetic chromatographic separation of phenolic chemicals in waters. , 2006, Journal of chromatography. A.

[75]  Zhao-Lun Fang,et al.  Integration of single cell injection, cell lysis, separation and detection of intracellular constituents on a microfluidic chip. , 2004, Lab on a chip.

[76]  David Rakestraw,et al.  Microchip separations of protein biotoxins using an integrated hand‐held device , 2005, Electrophoresis.

[77]  Elizabeth Guihen,et al.  Rapid separation of antimicrobial metabolites by microchip electrophoresis with UV linear imaging detection. , 2005, Journal of chromatography. A.

[78]  Erkang Wang,et al.  Simultaneous electrochemical and electrochemiluminescence detection for microchip and conventional capillary electrophoresis , 2005, Electrophoresis.

[79]  Susumu Honda,et al.  High‐speed electrophoretic analysis of 1‐phenyl‐3‐methyl‐5‐pyrazolone derivatives of monosaccharides on a quartz microchip with whole‐channel UV detection , 2003, Electrophoresis.

[80]  K. Uchiyama,et al.  An integrated microfluidic device in polyester for electrophoretic analysis of amino acids , 2005, Electrophoresis.

[81]  Yong-Kweon Kim,et al.  Microfluidic chip for biochemical reaction and electrophoretic separation by quantitative volume control , 2005 .

[82]  J. Landers,et al.  Microchip laser-induced fluorescence detection of proteins at submicrogram per milliliter levels mediated by dynamic labeling under pseudonative conditions. , 2004, Analytical chemistry.