| 2075 - 2082 |
Low-cost automated capillary electrophoresis instrument assembled from commercially available parts
Furter JS, Boillat MA, Hauser PC |
| 2083 - 2091 |
Capillary zone electrophoresis of proteins applying ionic liquids for dynamic coating and as background electrolyte component
Mezo E, Pager C, Makszin L, Kilar F |
| 2092 - 2101 |
Enantioseparation and molecular modeling study of eight psychoactive drugs on a coated polysaccharide-based chiral stationary phase
Cai LZ, Xue MY, Lun J, Li S, Yu J, Guo XJ |
| 2102 - 2113 |
Metabolomics applied in the study of emerging arboviruses caused byAedes aegyptimosquitoes: A review
Nunes E, Canuto GAB |
| 2114 - 2121 |
A simplified PDMS microfluidic device with a built-in suction actuator for rapid production of monodisperse water-in-oil droplets
Nakatani M, Tanaka Y, Okayama S, Hashimoto M |
| 2122 - 2135 |
Recent advances in microchip enantioseparation and analysis
Lu N, Kutter JP |
| 2136 - 2143 |
Ultrahigh throughput beehive-like device for blood plasma separation
Jiang FT, Xiang N, Ni ZH |
| 2144 - 2148 |
Chloroplast gene markers detect diatom DNA in a drowned mice establishing drowning as a cause of death
Vinayak V |
| 2149 - 2158 |
Human DNA extraction from highly degraded skeletal remains: How to find a suitable method?
Vinueza-Espinosa DC, Santos C, Martinez-Labarga C, Malgosa A |
| 2159 - 2165 |
Wirelessly powered dielectrophoresis of metal oxide particles using spark-gap Tesla coil
Budiman F, Silalahi DK, Muhamad B, Fathurahman MR, Rozana M, Tanaka H |
| 2166 - 2187 |
Inertial microfluidics: Recent advances
Huang D, Man JX, Jiang D, Zhao JY, Xiang N |
| 2188 - 2196 |
Sheath-assisted focusing of microparticles on lab-on-a-chip platforms
Dalili A, Sattati A, Tasnim N, Hoorfar M |
