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1 luding the narrow microchannels required for microchip electrophoresis.
2 2 nm for label-free analyte determination in microchip electrophoresis.
3  improved the performance of the devices for microchip electrophoresis.
4 le DNA sequencing matrixes for capillary and microchip electrophoresis.
5  covalently coated surfaces, especially with microchip electrophoresis.
6 on is of immense importance in capillary and microchip electrophoresis.
7 matrices for DNA sequencing by capillary and microchip electrophoresis.
8 ampling for sequential injection analysis by microchip electrophoresis.
9 tem that couples microdialysis sampling with microchip electrophoresis and electrochemical detection.
10 g for fluorescence detection in capillary or microchip electrophoresis and has the potential to be ap
11                                   We applied microchip electrophoresis and MALDI-TOF-MS-based glycomi
12 t improvement in the performance of PDMS for microchip electrophoresis and microfluidic applications.
13 h conventional capillary electrophoresis and microchip electrophoresis and results were compared to t
14 l and a triple-negative charge, separated by microchip electrophoresis, and detected by laser-induced
15 ole-cell catalyzed on-chip syntheses, chiral microchip electrophoresis, and label-free detection of e
16 ability of contact conductivity detection in microchip electrophoresis, and similar designs may have
17                               Through MS and microchip electrophoresis-based glycomic methods, severa
18 d for capillary electrophoresis- (CE) and/or microchip electrophoresis-based HDA, using six heterozyg
19 th its unique capability to resolve isomers, microchip electrophoresis can yield complementary analyt
20 d by end-channel detection for capillary and microchip electrophoresis detection.
21 port is the first to describe a multichannel microchip electrophoresis device with integrated contact
22 t, we explore the potential of capillary and microchip electrophoresis for heteroduplex analysis- (HD
23                                              Microchip electrophoresis is an emerging analytical tech
24  being developed to reduce sequencing costs, microchip electrophoresis is the only new technology rea
25                                  A home-made microchip electrophoresis (MCE) device was used to quant
26                     Using droplet-interfaced microchip electrophoresis (MCE) techniques, we have deve
27 cs to couple multiwell plate-based assays to microchip electrophoresis (MCE) to screen enzyme modulat
28 that integrates microdialysis (MD) sampling, microchip electrophoresis (ME), and electrochemical dete
29 be a novel class of DNA separation media for microchip electrophoresis, "physically cross-linked" blo
30  immunoaffinity purification step with rapid microchip electrophoresis separation in a laser-induced
31 nclusions about the role of order during the microchip electrophoresis separation of short DNA molecu
32 an serum, we report a strategy that combines microchip electrophoresis, standard addition, enzymatic
33  a poly(dimethylsiloxane)-based (PDMS-based) microchip electrophoresis system employing dual-electrod
34                          We have developed a microchip electrophoresis system that can automatically
35                                            A microchip electrophoresis system with integrated electro
36 ntervention; however, long-term operation of microchip electrophoresis systems has received little at
37  reveal the surprisingly powerful ability of microchip electrophoresis to provide ultrafast Sanger se
38 y between contact conductivity detection and microchip electrophoresis was developed.
39                                         With microchip electrophoresis, we are able to distinguish th
40                                 Results from microchip electrophoresis were consistent with those fro
41 equencing up to 600 bases in just 6.5 min by microchip electrophoresis with a unique polymer matrix/a
42 st detection limit for a neurotransmitter by microchip electrophoresis with amperometric detection an
43  dysplasia, and esophageal adenocarcinoma by microchip electrophoresis with laser-induced fluorescenc
44 ion cycles were collected and analyzed using microchip electrophoresis with LIF detection for fragmen
45 arison with electropherograms generated from microchip electrophoresis with LIF detection shows that
46  development of a new chip configuration for microchip electrophoresis with PAD.
47                                              Microchip electrophoresis with two-photon excited fluore
48 em for fast DNA separations by capillary and microchip electrophoresis without the need for any surfa

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