| 413 - 413 |
Fundamentals of Electrophoresis
Gas B, Dutta P |
| 414 - 433 |
Capillary electrophoresis-based immunoassay and aptamer assay: A review
Nevidalova H, Michalcova L, Glatz Z |
| 434 - 448 |
Nonaqueous electrophoresis on microchips: A review
Duarte LM, Moreira RC, Coltro WKT |
| 449 - 470 |
Mechanical characterization of vesicles and cells: A review
Morshed A, Karawdeniya BI, Bandara YMNDY, Kim MJ, Dutta P |
| 493 - 501 |
Determination of thermodynamic acidity constants and limiting ionic mobilities of weak electrolytes by capillary electrophoresis using a new free software AnglerFish
Maly M, Boublik M, Pocrnic M, Ansorge M, Lorincikova K, Svobodova J, Hruska V, Dubsky P, Gas B |
| 502 - 513 |
Contemporary chiral simulators for capillary zone electrophoresis
Caslavska J, Thormann W |
| 514 - 522 |
CE determination of the thermodynamic pK(a) values and limiting ionic mobilities of 14 low molecular mass UV absorbing ampholytes for accurate characterization of the pH gradient in carrier ampholytes-based IEF and its numeric simulation
Ansorge M, Gas B, Boublik M, Maly M, Steflova J, Hruska V, Vigh G |
| 523 - 535 |
Determination of binding constants of multiple charged cyclodextrin complexes by ACE using uncorrected and ionic strength corrected actual mobilities of the species involved
Sazelova P, Koval D, Severa L, Teply F, Vigh G, Kasicka V |
| 536 - 544 |
Electrolysis phenomena in electrophoresis
Novotny T, Gas B |
| 545 - 553 |
Enhancement in MS-based peptide detection by microfluidic free-flow zone electrophoresis
Kinde TF, Hess N, Dutta D |
| 562 - 569 |
USB powered microfluidic paper-based analytical devices
Schaumburg F, Kler PA, Carrell CS, Berli CLA, Henry CS |
| 570 - 577 |
Effect of surface conduction-induced electromigration on current monitoring method for electroosmotic flow measurement
Babar M, Dubey K, Bahga SS |
| 578 - 587 |
Mass transfer of a neutral solute in polyelectrolyte grafted soft nanochannel with porous wall
Roy D, Bhattacharjee S, De S |
| 588 - 597 |
Elastic instabilities in the electroosmotic flow of non-Newtonian fluids through T-shaped microchannels
Song L, Yu LD, Li D, Jagdale PP, Xuan XC |
| 598 - 606 |
Comprehensive model of electromigrative transport in microfluidic paper based analytical devices
Schaumburg F, Kler PA, Berli CLA |
| 607 - 614 |
The effect of the finite size of ions and Debye layer overspill on the screened Coulomb interactions between charged flat plates
Paul A, Mukherjee S, Dhar J, Ghosal S, Chakraborty S |
| 615 - 620 |
Electro-kinetically driven route for highly sensitive blood pathology on a paper-based device
Mani NK, Das SS, Dawn S, Chakraborty S |
| 621 - 629 |
Electrophoretic ratcheting of spherical particles in well/channel microfluidic devices: Making particles move against the net field
Wang HY, de Haan HW, Slater GW |
| 630 - 637 |
Fabrication of hexagonal boron nitride based 2D nanopore sensor for the assessment of electro-chemical responsiveness of human serum transferrin protein
Saharia J, Bandara YMNDY, Lee JS, Wang QX, Kim MJ, Kim MJ |
