| 1763 - 1763 |
Special issue on miniaturization in Asia Pacific
Lin BC, Qin JH |
| 1765 - 1774 |
Alternating current electrokinetic separation and detection of DNA nanoparticles in high-conductance solutions
Krishnan R, Sullivan BD, Mifflin RL, Esener SC, Heller MJ |
| 1775 - 1786 |
Chemical cytometry on microfluidic chips
Yan H, Zhang BY, Wu HK |
| 1787 - 1800 |
Electrochemical techniques for microfluidic applications
Sassa F, Morimoto K, Satoh W, Suzuki H |
| 1801 - 1814 |
Fabrication, modification, and application of department of analytical poly(methyl methacrylate) microfluidic chips
Chen Y, Zhang LY, Chen G |
| 1815 - 1828 |
Recent advances in surface-enhanced Raman scattering detection technology for microfluidic chips
Chen LX, Choo JB |
| 1829 - 1835 |
Study of a novel sample injection method (floating electrokinetic supercharging) for high-performance microchip electrophoresis of DNA fragments
Hirokawa T, Takayama Y, Arai A, Xu ZQ |
| 1836 - 1843 |
A practical interface for microfluidics and nanoelectrospray mass spectrometry
Freire SLS, Yang H, Wheeler AR |
| 1844 - 1851 |
On-line cell lysis and DNA extraction on a microfluidic biochip fabricated by microelectromechanical system technology
Chen X, Cui DF, Liu CC |
| 1852 - 1858 |
Sensitive, label-free protein assay using 1-ethyl-3-methylimidazolium tetraflucroborate-supported microchip electrophoresis with laser-induced fluonescence detection
Xu YH, Li J, Wang EK |
| 1859 - 1865 |
Microfluidic chip of fast DNA hybridization using denaturing and motion of nucleic acids
Chung YC, Lin YC, Chueh CD, Ye CY, Lai LW, Zhao Q |
| 1866 - 1873 |
Microcapillary electrophoresis chips utilizing controllable micro-lens structures and buried optical fibers for on-line optical detection
Hsiung SK, Lee CH, Lee GB |
| 1874 - 1880 |
A high-discernment microflow cytometer with microweir structure
Fu LM, Tsai CH, Lin CH |
| 1881 - 1888 |
A high-performance polycarbonate electrophoresis microchip with integrated three-electrode system for end-channel amperometric detection
Wang YR, Chen HW, He QH, Soper SA |
| 1889 - 1894 |
Coupling a microchip with electrospray ionization quadrupole time-of-flight mass spectrometer for peptide separation and identification
Li HF, Liu JJ, Cai ZW, Lin JM |
| 1895 - 1901 |
Numerical analysis of thermal lens effect for sensitive detection on microchips
Anraku R, Mawatari K, Tokeshi M, Nara M, Asai T, Hattori A, Kitamori T |
| 1902 - 1909 |
Accurate quantitation of salivary and pancreatic amylase activities in human plasma by microchip electrophoretic separation of the substrates and hydrolysates coupled with immunoinhibition
Maeda E, Kataoka M, Yatsushiro S, Kajimoto K, Hino M, Kaji N, Tokeshi M, Bando M, Kido JI, Ishilkawa M, Shinohara Y, Baba Y |
| 1910 - 1917 |
Electrophoretic analysis of food dyes using a miniaturized microfluidic system
Lee KS, Shiddiky MJA, Park SH, Park DS, Shim YB |
| 1918 - 1923 |
A multichannel electrophoresis microchip platform for rapid chiral selector screening
Gao Y, Luo Y, Qin JH, Lin BC |
| 1924 - 1931 |
Microchip capillary electrophoresis for frontal analysis of free bilirubin and study of its interaction with human serum albumin
Nie Z, Fung YS |
| 1932 - 1941 |
Microchip-based small, dense low-density lipoproteins assay for coronary heart disease risk assessment
Wang H, Wang HM, Jin QH, Cong H, Zhuang GS, Zha JL, Sun CL, Song HW, Wang W |
| 1942 - 1951 |
Capillary electrophoretic separation of biologically active amines and acids using nanoparticle-coated capillaries
Huang YF, Chiang CK, Lin YW, Liu K, Hu CC, Bair MJ, Chang HT |
| 1954 - 1954 |
Microfluidic cell disruption system employing a magnetically actuated diaphragm (vol 28, pg 4748, 2007)
Huh YS, Choi JH, Kim KA, Park TJ, Hong YK, Kim DH, Hong WH, Lee SY |
