| 1 |
The influence of electrolyte concentration on nanofractures fabricated in a 3D-printed microfluidic device by controlled dielectric breakdown
Islam MF, Yap YC, Li F, Guijt RM, Breadmore MC
Electrophoresis, 41(23), 2007, 2020 |
| 2 |
In Vitro Screening of Bioactive Compounds in some Gluten-Free Plants
Drzewiecki J, Martinez-Ayala AL, Lozano-Grande MA, Leontowicz H, Leontowicz M, Jastrzebski Z, Pasko P, Gorinstein S
Applied Biochemistry and Biotechnology, 186(4), 847, 2018 |
| 3 |
Sample injection and electrophoretic separation on a simple laminated paper based analytical device
Xu CX, Zhong MH, Cai LF, Zheng QY, Zhang XJ
Electrophoresis, 37(3), 476, 2016 |
| 4 |
Capillary electrophoretic study of green fluorescent hollow carbon nanoparticles
Liu LZ, Feng F, Hu Q, Paau MC, Liu Y, Chen ZZ, Bai YF, Guo FF, Choi MMF
Electrophoresis, 36(17), 2110, 2015 |
| 5 |
Computational study of velocity profile obtained in microfluidic channel bearing a fluidic transistor: Toward highly resolved electrophoretic separation
Charhrouchni I, Pallandre A, Le Potier I, Deslouis C, Haghiri-Gosnet AM
Electrophoresis, 34(5), 725, 2013 |
| 6 |
Recent innovations in protein separation on microchips by electrophoretic methods: An update
Tran NT, Ayed I, Pallandre A, Taverna M
Electrophoresis, 31(1), 147, 2010 |
| 7 |
Proteomic analysis for process development and control of therapeutic protein separation from human plasma
Yang XL, Clifton J, Huang F, Kovac S, Hixson DC, Josic D
Electrophoresis, 30(7), 1185, 2009 |
| 8 |
A monolithically integrated CMOS labchip using sensor devices
Schafer H, Scholer L, Seibel K, Bohm M
Applied Surface Science, 255(3), 646, 2008 |
| 9 |
Recent innovations in protein separation on microchips by electrophoretic methods
Peng YY, Pallandre A, Tran NT, Taverna M
Electrophoresis, 29(1), 157, 2008 |
| 10 |
Preparative-scale, recirculating, pH-biased binary isoelectric trapping separations
Shave E, Vigh G
Electrophoresis, 25(2), 381, 2004 |
