Nitin K. Hansoge
Northwestern University
Penetration (firestop)Complex fluidPhysicsStatistical physicsConfiguration entropySurrogate modelDissipationStarsNanoparticleComposite materialRenormalizationEpoxyNanotechnologyThermosetting polymerNanocrystalChain (algebraic topology)Mesoscopic physicsGranularityBiological systemEnergy (signal processing)Thin filmDegree of polymerizationMaterials scienceModulusDegrees of freedom (physics and chemistry)Condensed matter physicsPolycarbonatePolystyreneMethyl methacrylateScale (ratio)CelluloseStiffnessBallistic impactBisphenol A diglycidyl etherMolecular simulationDesign spaceUniversal relationComputational designImpact resistanceStar polymerDesign elements and principlesAtmospheric temperature rangeMolecular physicsChemical engineeringRelaxation (NMR)ProjectilePolymerPicosecondExperimental dataMolecular dynamicsGaussian processFragilityMetamodelingDispersion (chemistry)Force field (chemistry)NanocompositeToughness
Publications 12
#1Wenjie Xia (NIST: National Institute of Standards and Technology)H-Index: 20
#2Jake Song (MIT: Massachusetts Institute of Technology)H-Index: 8
Last. Jack F. Douglas (NIST: National Institute of Standards and Technology)H-Index: 91
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Coarse-grained modeling achieves the enhanced computational efficiency required to model glass-forming materials by integrating out “unessential” molecular degrees of freedom, but no effective temperature transferable coarse-graining method currently exists to capture dynamics. We address this fundamental problem through an energy-renormalization scheme, in conjunction with the localization model of relaxation relating the Debye–Waller factor ⟨u2⟩ to the structural relaxation time τ. Taking orth...
21 CitationsSource
#1Nitin K. Hansoge (NU: Northwestern University)H-Index: 4
#2Tianyu Huang (NU: Northwestern University)H-Index: 4
Last. Sinan Keten (NU: Northwestern University)H-Index: 34
view all 6 authors...