Fast reverse osmosis using boron nitride and carbon nanotubes ME Suk, AV Raghunathan, NR Aluru Applied Physics Letters 92 (13), 2008 | 162 | 2008 |
Molecular understanding of osmosis in semipermeable membranes AV Raghunathan, NR Aluru Physical review letters 97 (2), 024501, 2006 | 85 | 2006 |
Interatomic potential-based semiclassical theory for Lennard-Jones fluids AV Raghunathan, JH Park, NR Aluru The Journal of chemical physics 127 (17), 2007 | 58 | 2007 |
Self-consistent molecular dynamics formulation for electric-field-mediated electrolyte transport through nanochannels AV Raghunathan, NR Aluru Physical Review E 76 (1), 011202, 2007 | 44 | 2007 |
Effect of size-asymmetric electrolyte on single-file osmosis AV Raghunathan, NR Aluru Applied physics letters 89 (6), 2006 | 9 | 2006 |
An empirical potential based quasicontinuum theory for structural prediction of water (Retraction of vol. 131, art. no. 184703, 2009) AV Raghunathan, NR Aluru JOURNAL OF CHEMICAL PHYSICS 132 (20), 2010 | | 2010 |
Molecular understanding of osmosis and a multiscale framework to investigate confined fluid properties AV Raghunathan University of Illinois at Urbana-Champaign, 2010 | | 2010 |
ENVR 113-Molecular dynamics simulation of reverse osmosis ME Suk, AV Raghunathan, NR Aluru ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY 235, 2008 | | 2008 |
Accurate treatment of external electric field in molecular dynamics simulation of nanofluidics A Raghunathan, N Aluru APS Division of Fluid Dynamics Meeting Abstracts 60, AN. 004, 2007 | | 2007 |
Equilibrium and linear transport properties of fluids-Self-consistent molecular dynamics formulation for electric-field-mediated electrolyte transport through nanochannels AV Raghunathan, NR Aluru Physical Review-Section E-Statistical Nonlinear and Soft Matter Physics 76 …, 2007 | | 2007 |
Web based distributed computing environment for nanotechnology D Chen, A Raghunathan, J Mashl, S Chiu, S Parker, N Aluru, ... 2005 NSTI Nanotechnology Conference and Trade Show-NSTI Nanotech 2005, 720-723, 2005 | | 2005 |
Self-consistent Grand Canonical Molecular Dynamics Methodology to Investigate Fluid Flow in Confined Nanochannels AV Raghunathan University of Illinois at Urbana-Champaign, 2005 | | 2005 |