Freely suspended nanocomposite membranes as highly sensitive sensors C Jiang, S Markutsya, Y Pikus, VV Tsukruk Nature materials 3 (10), 721-728, 2004 | 669 | 2004 |
Collective and individual plasmon resonances in nanoparticle films obtained by spin-assisted layer-by-layer assembly C Jiang, S Markutsya, VV Tsukruk Langmuir 20 (3), 882-890, 2004 | 317 | 2004 |
Compliant, robust, and truly nanoscale free‐standing multilayer films fabricated using spin‐assisted layer‐by‐layer assembly C Jiang, S Markutsya, VV Tsukruk Advanced Materials 16 (2), 157-161, 2004 | 282 | 2004 |
Freely suspended layer‐by‐layer nanomembranes: testing micromechanical properties S Markutsya, C Jiang, Y Pikus, VV Tsukruk Advanced Functional Materials 15 (5), 771-780, 2005 | 213 | 2005 |
Freely suspended gold nanoparticle arrays C Jiang, S Markutsya, H Shulha, VV Tsukruk Advanced Materials 17 (13), 1669-1673, 2005 | 89 | 2005 |
Evaluation of coarse-grained mapping schemes for polysaccharide chains in cellulose S Markutsya, A Devarajan, JY Baluyut, TL Windus, MS Gordon, MH Lamm The Journal of chemical physics 138 (21), 2013 | 35 | 2013 |
Self-recovery of stressed nanomembranes C Jiang, BM Rybak, S Markutsya, PE Kladitis, VV Tsukruk Applied Physics Letters 86 (12), 2005 | 31 | 2005 |
A coarse-graining approach for molecular simulation that retains the dynamics of the all-atom reference system by implementing hydrodynamic interactions S Markutsya, MH Lamm The Journal of Chemical Physics 141 (17), 2014 | 30 | 2014 |
On Brownian dynamics simulation of nanoparticle aggregation S Markutsya, S Subramaniam, RD Vigil, RO Fox Industrial & engineering chemistry research 47 (10), 3338-3345, 2008 | 29 | 2008 |
Ab initio study of molecular interactions in cellulose Iα A Devarajan, S Markutsya, MH Lamm, X Cheng, JC Smith, JY Baluyut, ... The Journal of Physical Chemistry B 117 (36), 10430-10443, 2013 | 26 | 2013 |
Characterization of sheared colloidal aggregation using Langevin dynamics simulation S Markutsya, RO Fox, S Subramaniam Physical Review E 89 (6), 062312, 2014 | 22 | 2014 |
Modeling and simulation of nanoparticle aggregation in colloidal systems S Markutsya Iowa State University, 2010 | 20 | 2010 |
Coarse-graining approach to infer mesoscale interaction potentials from atomistic interactions for aggregating systems S Markutsya, RO Fox, S Subramaniam Industrial & engineering chemistry research 51 (49), 16116-16134, 2012 | 15 | 2012 |
A coarse-grained model for β-d-glucose based on force matching S Markutsya, YA Kholod, A Devarajan, TL Windus, MS Gordon, MH Lamm Theoretical Chemistry Accounts 131, 1-15, 2012 | 15 | 2012 |
Coarse-Grained Dynamically Accurate Simulations of Ionic Liquids: [pyr14][TFSI] and [EMIM][BF4] TD Stoffel, JB Haskins, JW Lawson, S Markutsya The Journal of Physical Chemistry B 126 (8), 1819-1829, 2022 | 4 | 2022 |
Intensive electric arc interaction with polymer surfaces: reorganization of surface morphology and microstructure S Markutsya, M Rapeaux, VV Tsukruk Polymer 46 (18), 7028-7036, 2005 | 3 | 2005 |
Method for Decoupling Solid and Radiative Thermal Conductivity in Fibrous Insulation Materials C Barrow, JF Maddox, S Markutsya AIAA AVIATION 2022 Forum, 3797, 2022 | 2 | 2022 |
Improved potential of mean force for Brownian dynamics simulation of nanoparticle aggregation S Markutsya, S Subramaniam, R Fox APS Division of Fluid Dynamics Meeting Abstracts 61, LK. 005, 2008 | 1 | 2008 |
Studying Interfacial Phenomena of Ionic Liquids Using Accurate Dynamics Coarse-Grained Models S Markutsya, T Stoffel, J Lawson, J Haskins Bulletin of the American Physical Society, 2024 | | 2024 |
Coarse-Grained Water Model Development for Accurate Dynamics and Structure Prediction S Markutsya, A Haley, MS Gordon ACS omega 7 (29), 25898-25904, 2022 | | 2022 |