Valeriy Ginzburg
Valeriy Ginzburg
VVG Physics Consulting LLC
Verified email at - Homepage
Cited by
Cited by
Thermal conductivity of polymer-based composites: Fundamentals and applications
H Chen, VV Ginzburg, J Yang, Y Yang, W Liu, Y Huang, L Du, B Chen
Progress in Polymer Science 59, 41-85, 2016
Predicting the mesophases of copolymer-nanoparticle composites
RB Thompson, VV Ginzburg, MW Matsen, AC Balazs
Science 292 (5526), 2469-2472, 2001
Block copolymer-directed assembly of nanoparticles: Forming mesoscopically ordered hybrid materials
RB Thompson, VV Ginzburg, MW Matsen, AC Balazs
Macromolecules 35 (3), 1060-1071, 2002
Modeling the thermodynamics of the interaction of nanoparticles with cell membranes
VV Ginzburg, S Balijepalli
Nano letters 7 (12), 3716-3722, 2007
Thermodynamic behavior of particle/diblock copolymer mixtures: Simulation and theory
J Huh, VV Ginzburg, AC Balazs
Macromolecules 33 (21), 8085-8096, 2000
Influence of nanoparticles on miscibility of polymer blends. A simple theory
VV Ginzburg
Macromolecules 38 (6), 2362-2367, 2005
Theoretical phase diagrams of polymer/clay composites: the role of grafted organic modifiers
VV Ginzburg, C Singh, AC Balazs
Macromolecules 33 (3), 1089-1099, 2000
Forming supramolecular networks from nanoscale rods in binary, phase-separating mixtures
G Peng, F Qiu, VV Ginzburg, D Jasnow, AC Balazs
Science 288 (5472), 1802-1804, 2000
Calculating phase diagrams of polymer− platelet mixtures using density functional theory: implications for polymer/clay composites
VV Ginzburg, AC Balazs
Macromolecules 32 (17), 5681-5688, 1999
Multi-Scale Model for Binary Mixtures Containing Nanoscopic Particles
AC Balazs, VV Ginzburg, F Qiu, G Peng, D Jasnow
Journal of Physical Chemistry B 104 (15), 3411-3422, 2000
Simulation of hard particles in a phase-separating binary mixture
VV Ginzburg, F Qiu, M Paniconi, G Peng, D Jasnow, AC Balazs
Phys Rev Letters 82, 4026, 1999
Calculating phase diagrams for nanocomposites: the effect of adding end‐functionalized chains to polymer/clay mixtures
VV Ginzburg, AC Balazs
Advanced materials 12 (23), 1805-1809, 2000
Modeling the interfacial tension in oil− water− nonionic surfactant mixtures using dissipative particle dynamics and self-consistent field theory
VV Ginzburg, K Chang, PK Jog, AB Argenton, L Rakesh
The journal of physical chemistry B 115 (16), 4654-4661, 2011
Kinetic model of phase separation in binary mixtures with hard mobile impurities
VV Ginzburg, G Peng, F Qiu, D Jasnow, AC Balazs
Physical Review E 60 (4), 4352, 1999
Modeling the dynamic behavior of diblock copolymer/particle composites
VV Ginzburg, C Gibbons, F Qiu, G Peng, AC Balazs
Macromolecules 33 (16), 6140-6147, 2000
Determining the phase behavior of nanoparticle‐filled binary blends
G He, VV Ginzburg, AC Balazs
Journal of Polymer Science Part B: Polymer Physics 44 (17), 2389-2403, 2006
Three-dimensional simulations of diblock copolymer/particle composites
VV Ginzburg, F Qiu, AC Balazs
Polymer 43 (2), 461-466, 2002
Design, polymerization, and properties of high performance thermoplastic polyurethane elastomers from seed-oil derived soft segments
MF Sonnenschein, VV Ginzburg, KS Schiller, BL Wendt
Polymer 54 (4), 1350-1360, 2013
Simple “kink” model of melt intercalation in polymer-clay nanocomposites
VV Ginzburg, OV Gendelman, LI Manevitch
Physical review letters 86 (22), 5073, 2001
Polymer-Grafted Nanoparticles in Polymer Melts: Modeling Using the Combined SCFT–DFT Approach
VV Ginzburg
Macromolecules 46 (24), 9798-9805, 2013
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