Francis W. Starr
Francis W. Starr
Wesleyan University, Physics and Molecular Biology & Biochemistry Departments
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Cited by
Cited by
Current issues in research on structure–property relationships in polymer nanocomposites
J Jancar, JF Douglas, FW Starr, SK Kumar, P Cassagnau, AJ Lesser, ...
Polymer 51 (15), 3321-3343, 2010
Molecular dynamics simulation of a polymer melt with a nanoscopic particle
FW Starr, TB Schrøder, SC Glotzer
Macromolecules 35 (11), 4481-4492, 2002
Spatially heterogeneous dynamics investigated via a time-dependent four-point density correlation function
N Lačević, FW Starr, TB Schrøder, SC Glotzer
The Journal of chemical physics 119 (14), 7372-7387, 2003
Diamond family of nanoparticle superlattices
W Liu, M Tagawa, HL Xin, T Wang, H Emamy, H Li, KG Yager, FW Starr, ...
Science 351 (6273), 582-586, 2016
Configurational entropy and diffusivity of supercooled water
A Scala, FW Starr, E La Nave, F Sciortino, HE Stanley
Nature 406 (6792), 166-169, 2000
What do we learn from the local geometry of glass-forming liquids?
FW Starr, S Sastry, JF Douglas, SC Glotzer
Physical review letters 89 (12), 125501, 2002
Thermodynamics, structure, and dynamics of water confined between hydrophobic plates
P Kumar, SV Buldyrev, FW Starr, N Giovambattista, HE Stanley
Physical Review E 72 (5), 051503, 2005
The relationship of dynamical heterogeneity to the Adam-Gibbs and random first-order transition theories of glass formation
FW Starr, JF Douglas, S Sastry
The Journal of chemical physics 138 (12), 2013
Dynamics of simulated water under pressure
FW Starr, F Sciortino, HE Stanley
Physical Review E 60 (6), 6757, 1999
Fast and slow dynamics of hydrogen bonds in liquid water
FW Starr, JK Nielsen, HE Stanley
Physical Review Letters 82 (11), 2294, 1999
Appearance of a fractional Stokes–Einstein relation in water and a structural interpretation of its onset
L Xu, F Mallamace, Z Yan, FW Starr, SV Buldyrev, H Eugene Stanley
Nature Physics 5 (8), 565-569, 2009
Origin of particle clustering in a simulated polymer nanocomposite and its impact on rheology
FW Starr, JF Douglas, SC Glotzer
The Journal of chemical physics 119 (3), 1777-1788, 2003
The effect of nanoparticle shape on polymer‐nanocomposite rheology and tensile strength
ST Knauert, JF Douglas, FW Starr
Journal of Polymer Science Part B: Polymer Physics 45 (14), 1882-1897, 2007
Interfacial mobility scale determines the scale of collective motion and relaxation rate in polymer films
PZ Hanakata, JF Douglas, FW Starr
Nature communications 5 (1), 4163, 2014
Modifying fragility and collective motion in polymer melts with nanoparticles
FW Starr, JF Douglas
Physical review letters 106 (11), 115702, 2011
Hydrogen-bond dynamics for the extended simple point-charge model of water
FW Starr, JK Nielsen, HE Stanley
Physical Review E 62 (1), 579, 2000
Connection of translational and rotational dynamical heterogeneities with the breakdown of the Stokes-Einstein and Stokes-Einstein-Debye relations in water
MG Mazza, N Giovambattista, HE Stanley, FW Starr
Physical Review E—Statistical, Nonlinear, and Soft Matter Physics 76 (3 …, 2007
Relation between the Widom line and the breakdown of the Stokes–Einstein relation in supercooled water
P Kumar, SV Buldyrev, SR Becker, PH Poole, FW Starr, HE Stanley
Proceedings of the National Academy of Sciences 104 (23), 9575-9579, 2007
Quantitative relations between cooperative motion, emergent elasticity, and free volume in model glass-forming polymer materials
BA Pazmiño Betancourt, PZ Hanakata, FW Starr, JF Douglas
Proceedings of the National Academy of Sciences 112 (10), 2966-2971, 2015
Fragility and cooperative motion in a glass-forming polymer–nanoparticle composite
BAP Betancourt, JF Douglas, FW Starr
Soft Matter 9 (1), 241-254, 2013
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