| 1019 - 1026 |
Resolving quantum dots and peptide assembly and disassembly using bending capillary electrophoresis
Wang JH, Zhu ZL, Jia WJ, Qiu L, Chang YF, Li J, Ma LP, You Y, Wang JP, Liu L, Xia J, Liu XQ, Li YQ, Jiang PJ |
| 1027 - 1033 |
Determination of formaldehyde in single cell by capillary electrophoresis with LIF detection
Fu YJ, Chen L, Guo XF, Wang H |
| 1034 - 1040 |
Electrokinetic motion of a micro oil droplet under a glass slide
Zhang JY, Song YX, Li DQ |
| 1041 - 1054 |
Experimental design and measurement uncertainty in ligand binding studies by affinity capillary electrophoresis
Stein M, Haselberg R, Mozafari-Torshizi M, Watzig H |
| 1055 - 1060 |
Peptide nucleic acid and amino acid modified peptide nucleic acid analysis by capillary zone electrophoresis
Wang XQ, Li LS, Khan RU, Qu F |
| 1061 - 1065 |
Heart-cut nano-LC-CZE-MS for the characterization of proteins on the intact level
Jooss K, Scholz N, Meixner J, Neususs C |
| 1066 - 1073 |
A new stability indicating reverse phase high performance liquid chromatography method for the determination of enantiomeric purity of a DPP-4 inhibitor drug linagliptin
Salapaka A, Bonige KB, Korupolu RB, Reddy TC, Reddy KC, Sreenivas N, Sharma HK, Ray UK |
| 1074 - 1081 |
Quantification of controlled release leuprolide and triptorelin in rabbit plasma using electromembrane extraction coupled with HPLC-UV
Davarani SSH, Pourahadi A, Ghasemzadeh P |
| 1082 - 1090 |
Increased dwell time and occurrence of dsDNA translocation events through solid state nanopores by LiCl concentration gradients
Bello J, Mowla M, Troise N, Soyring J, Borgesi J, Shim J |
| 1091 - 1095 |
Evaluation of the microhaplotype markers in kinship analysis
Zhu J, Chen P, Qu SQ, Wang YJ, Jian H, Cao SQ, Liu YQ, Zhang RR, Lv ML, Liang WB, Zhang L |
| 1096 - 1106 |
An automated food protein isolation approach on preparative scale by two-dimensional liquid chromatography with active modulation interface
Melfi MT, Nardiello D, Natale A, Quinto M, Centonze D |
| 1107 - 1112 |
Increasing the amount of phosphoric acid enhances the suitability of Bradford assay for proteomic research
Cui WT, Xue HR, Cheng HD, Zhang HB, Jin JH, Wang QL |
