Add to ORKGWe present an experimental study of Ogston-like sieving process of rodlike DNA in patterned periodic nanofluidic filter arrays. The electrophoretic motion of DNA through the array is described as a biased Brownian motion overcoming periodically modulated free-energy landscape. A kinetic model, constructed based on the equilibrium partitioning theory and the Kramers theory, explains the field-dependent mobility well. We further show experimental evidence of the crossover from Ogston-like sieving to entropic trapping, depending on the ratio between nanofilter constriction size and DNA size
AbstractWe report on an experiment and calculations that determine the thermal motion of a voltage-c...
AbstractWe describe experiments and modeling results that reveal and explain the distribution of tim...
AbstractWe theoretically investigate the unzipping of DNA electrically driven through a nanometer-si...
We present a theoretical model describing Ogston (pore size comparable to or larger than the charact...
Via comparisons with rigid-rod and wormlike-chain Brownian dynamics (BD) simulations and the experim...
Linear thermodynamics transportation theory is employed to study filtration of rodlike DNA molecules...
University of Minnesota Ph.D. dissertation. August 2010. Major: Chemical Engineering. Advisor: Kevin...
DNA capture with high fidelity is an essential part of nanopore translocation. We report several imp...
Confinement effects on the electromigration of long dsDNA molecules in an array of well-ordered, mol...
Using Brownian dynamics simulations, we study the migration of long charged chains in an electrophor...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
AbstractTheories of DNA electrophoretic separations generally treat the DNA as a free draining polym...
The electrophoretically-driven transport of double-stranded λ-phage DNA through focused ion beam (FI...
AbstractDuring electrophoretic separations of DNA in a sieving medium, DNA molecules stretch from a ...
Experimental studies were performed to evaluate methods of improving separation resolution and speed...
AbstractWe report on an experiment and calculations that determine the thermal motion of a voltage-c...
AbstractWe describe experiments and modeling results that reveal and explain the distribution of tim...
AbstractWe theoretically investigate the unzipping of DNA electrically driven through a nanometer-si...
We present a theoretical model describing Ogston (pore size comparable to or larger than the charact...
Via comparisons with rigid-rod and wormlike-chain Brownian dynamics (BD) simulations and the experim...
Linear thermodynamics transportation theory is employed to study filtration of rodlike DNA molecules...
University of Minnesota Ph.D. dissertation. August 2010. Major: Chemical Engineering. Advisor: Kevin...
DNA capture with high fidelity is an essential part of nanopore translocation. We report several imp...
Confinement effects on the electromigration of long dsDNA molecules in an array of well-ordered, mol...
Using Brownian dynamics simulations, we study the migration of long charged chains in an electrophor...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
AbstractTheories of DNA electrophoretic separations generally treat the DNA as a free draining polym...
The electrophoretically-driven transport of double-stranded λ-phage DNA through focused ion beam (FI...
AbstractDuring electrophoretic separations of DNA in a sieving medium, DNA molecules stretch from a ...
Experimental studies were performed to evaluate methods of improving separation resolution and speed...
AbstractWe report on an experiment and calculations that determine the thermal motion of a voltage-c...
AbstractWe describe experiments and modeling results that reveal and explain the distribution of tim...
AbstractWe theoretically investigate the unzipping of DNA electrically driven through a nanometer-si...