| 1 |
Electrophoretic ratcheting of spherical particles in well/channel microfluidic devices: Making particles move against the net field
Wang HY, de Haan HW, Slater GW
Electrophoresis, 41(7-8), 621, 2020 |
| 2 |
Langevin dynamcis simulations of driven polymer translocation into a cross-linked gel
Sean D, Slater GW
Electrophoresis, 38(5), 653, 2017 |
| 3 |
Free Energy of a Polymer in Slit-like Confinement from the Odijk Regime to the Bulk
Leith JS, Kamanzi A, Sean D, Berard D, Guthrie AC, McFaul CMJ, Slater GW, de Haan HW, Leslie SR
Macromolecules, 49(23), 9266, 2016 |
| 4 |
Translocation of a polymer through a nanopore starting from a confining nanotube
Sean D, de Haan HW, Slater GW
Electrophoresis, 36(5), 682, 2015 |
| 5 |
Interfacing solid-state nanopores with gel media to slow DNA translocations
Waugh M, Carlsen A, Sean D, Slater GW, Briggs K, Kwok H, Tabard-Cossa V
Electrophoresis, 36(15), 1759, 2015 |
| 6 |
Electrophoresis of Heteropolymers. Effect of Stiffness
Chubynsky MV, Slater GW
Macromolecules, 48(16), 5899, 2015 |
| 7 |
Theory of end-labeled free-solution electrophoresis: Is the end effect important?
Chubynsky MV, Slater GW
Electrophoresis, 35(5), 596, 2014 |
| 8 |
Can gel concentration gradients improve two- dimensional DNA displays?
Sean D, Wang YXE, Slater GW
Electrophoresis, 35(5), 736, 2014 |
| 9 |
Gel electrophoresis of DNA partially denatured at the ends: What are the dominant conformations?
Sean D, Slater GW
Electrophoresis, 34(5), 745, 2013 |
| 10 |
Structure of Polyelectrolyte Brushes Subject to Normal Electric Fields
Ho YF, Shendruk TN, Slater GW, Hsiao PY
Langmuir, 29(7), 2359, 2013 |
