Polymer Physics Prize
INVITED · MAR-F56 · ID: 2815486
Presentations
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Predicting structure and charge transport in semiconducting polymers
ORAL · Invited
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Publication: 1. Jindal V, Janik MJ, Milner ST (2024) Tight-binding model describes frontier orbitals of non-fullerene acceptors. Molecular Systems Design & Engineering, https://doi.org/10.1039/d3me00195d<br> 2. Jindal V, Aldahdooh MKR, Gomez ED, Janik MJ, Milner ST (2024) Tight-binding model predicts exciton energetics and structure for photovoltaic molecules. Physical Chemistry Chemical Physics, 26(21):15472–15483. https://doi.org/10.1039/d4cp00554f<br> 3. Agarwala P, Donaher S, Ganapathysubramanian B, Gomez ED, Milner ST (2023) Machine Learning Identifies Strong Electronic Contacts in Semiconducting Polymer Melts. Macromolecules, 56(15):5698–5707. https://doi.org/10.1021/acs.macromol.3c00987<br> 4. Agarwala P, Gomez ED, Milner ST (2023) Predicting χ from Concentration Response to Spatially Varying Potentials. Macromolecules, 56(17):6859–6869. https://doi.org/10.1021/acs.macromol.3c00793<br> 5. Agarwala P, Gomez ED, Milner ST (2022) Fast, Faithful Simulations of Donor–Acceptor Interface Morphology. Journal of Chemical Theory and Computation, 18(11):6932–6939. https://doi.org/10.1021/acs.jctc.2c00470<br> 6. Agarwala P, Gomez ED, Milner ST (2024) Crystalline and Amorphous Interface Simulations of Donor–Acceptor Blends. Journal of Chemical Theory and Computation, 20(15):6848–6857. https://doi.org/10.1021/acs.jctc.4c00667
Presenters
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Scott T Milner
Pennsylvania State University
Authors
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Scott T Milner
Pennsylvania State University
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On polydispersity, molecular weight distribution and rheology
ORAL · Invited
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Publication: C Das and D.J. Read "A tube model for predicting the stress and dielectric relaxations of polydisperse linear polymers" Journal of Rheology 67, 693-721 (2023)
Presenters
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Daniel J Read
University of Leeds
Authors
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Daniel J Read
University of Leeds
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Entanglement, segmental relaxation, and polymer crystallization
ORAL · Invited
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Presenters
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Wenlin Zhang
Dartmouth College
Authors
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Wenlin Zhang
Dartmouth College
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Adsorption of copolymers and surfactants from micellar solutions
ORAL · Invited
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Publication: J.A. Mysona, A.V. McCormick, and D.C.M, J. Colloid and Interface Sci. 638, 855-871 (2023).<br>B. Huang, S.V Iasell, M. Rathi, J. Hassler, C. Ciutara, Z. He, D.C. Morse, J.Z. Zasadsinksi, J. Coll. and Interface Sci. 677, 557-568 (2024)
Presenters
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David C Morse
University of Minnesota
Authors
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David C Morse
University of Minnesota
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Disentanglement in polymer liquids: additive manufacturing, entanglement dynamics, and shear banding.
ORAL · Invited
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Publication: "Entanglement Kinetics in Polymer Melts Are Chemically Specific", Benjamin E. Dolata, Marco A. Galvani Cunha, Thomas O'Connor, Austin Hopkins, and Peter D. Olmsted, ACS Macro Letters 13 (2024) 896-902. DOI: 10.1021/acsmacrolett.4c00092<br><br>"A thermodynamically consistent constitutive equation describing polymer disentanglement under flow", Benjamin E. Dolata and Peter D. Olmsted, Journal of Rheology 56 (2023) 269-292, DOI: 10.1122/8.0000476.<br><br>"Probing the nonequilibrium dynamics of stress, orientation, and entanglements in polymer melts with orthogonal interrupted shear simulations", Marco A. Galvani Cunha, Peter D. Olmsted and Mark O. Robbins Journal of Rheology 66 (2022) 619, DOI: 10.1122/8.0000407.<br><br> "Disentanglement effects on welding behaviour of polymer melts during the fused-filament-fabrication method for additive manufacturing", Claire McIlroy and P. D. Olmsted, Polymer 123 (2017) 376-391<br>DOI: 10.1016/j.polymer.2017.06.051.<br><br>"Deformation of an Amorphous Polymer during the Fused-Filament-Fabrication Method for Additive Manufacturing", Claire McIlroy and P. D. Olmsted, Journal of Rheology 61 (2017) 379-397 DOI: 10.1122/1.4976839.
Presenters
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Peter D Olmsted
Georgetown University
Authors
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Peter D Olmsted
Georgetown University
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