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Valeriy Ginzburg
Valeriy Ginzburg
VVG Physics Consulting LLC
Verified email at vvgphysics.com - Homepage
Title
Cited by
Cited by
Year
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
19912016
Predicting the mesophases of copolymer-nanoparticle composites
RB Thompson, VV Ginzburg, MW Matsen, AC Balazs
Science 292 (5526), 2469-2472, 2001
8722001
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
3482002
Modeling the thermodynamics of the interaction of nanoparticles with cell membranes
VV Ginzburg, S Balijepalli
Nano letters 7 (12), 3716-3722, 2007
3332007
Thermodynamic behavior of particle/diblock copolymer mixtures: Simulation and theory
J Huh, VV Ginzburg, AC Balazs
Macromolecules 33 (21), 8085-8096, 2000
3142000
Influence of nanoparticles on miscibility of polymer blends. A simple theory
VV Ginzburg
Macromolecules 38 (6), 2362-2367, 2005
2762005
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
2692000
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
1962000
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
1711999
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
1692000
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
1561999
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
922000
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
872011
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
811999
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
782000
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
772006
Three-dimensional simulations of diblock copolymer/particle composites
VV Ginzburg, F Qiu, AC Balazs
Polymer 43 (2), 461-466, 2002
662002
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
642013
Simple “kink” model of melt intercalation in polymer-clay nanocomposites
VV Ginzburg, OV Gendelman, LI Manevitch
Physical review letters 86 (22), 5073, 2001
532001
Theoretical modeling of the relationship between Young's modulus and formulation variables for segmented polyurethanes
VV Ginzburg, J Bicerano, CP Christenson, AK Schrock, AZ Patashinski
Journal of Polymer Science Part B: Polymer Physics 45 (16), 2123-2135, 2007
502007
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