Peter T Cummings
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Explore the profile of Peter T Cummings including associated specialties, affiliations and a list of published articles.
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Articles
115
Citations
845
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Recent Articles
1.
Kalyuzhnyi Y, Patsahan T, Holovko M, Cummings P
Nanoscale
. 2024 Jun;
16(27):13210.
PMID: 38940607
Correction for 'Phase behavior of patchy colloids confined in patchy porous media' by Yurij V. Kalyuzhnyi , , 2024, , 4668-4677, https://doi.org/10.1039/D3NR02866F.
2.
Kalyuzhnyi Y, Patsahan T, Holovko M, Cummings P
Nanoscale
. 2024 Feb;
16(9):4668-4677.
PMID: 38305436
A simple model for functionalized disordered porous media is proposed and the effects of confinement on self-association, percolation and phase behavior of a fluid of patchy particles are studied. The...
3.
Nehil-Puleo K, Quach C, Craven N, McCabe C, Cummings P
J Phys Chem B
. 2024 Jan;
128(4):1108-1117.
PMID: 38232317
We have developed a multi-input E() equivariant graph convolution-based model designed for the prediction of chemical properties that result from the interaction of heterogeneous molecular structures. By incorporating spatial features...
4.
Lin X, Tee S, Kent P, Searles D, Cummings P
J Chem Theory Comput
. 2024 Jan;
20(2):651-664.
PMID: 38211325
We describe a method for modeling constant-potential charges in heteroatomic electrodes, keeping pace with the increasing complexity of electrode composition and nanostructure in electrochemical research. The proposed "heteroatomic constant potential...
5.
Crawford B, Timalsina U, Quach C, Craven N, Gilmer J, McCabe C, et al.
J Chem Inf Model
. 2023 Feb;
63(4):1218-1228.
PMID: 36791286
MoSDeF-GOMC is a python interface for the Monte Carlo software GOMC to the Molecular Simulation Design Framework (MoSDeF) ecosystem. MoSDeF-GOMC automates the process of generating initial coordinates, assigning force field...
6.
Martins M, Lin X, Gainaru C, Keum J, Cummings P, Sokolov A, et al.
J Phys Chem B
. 2022 Dec;
127(1):308-320.
PMID: 36577128
Concentrated ionic solutions present a potential improvement for liquid electrolytes. However, their conductivity is limited by high viscosities, which can be attenuated via cosolvation. This study employs a series of...
7.
Ko T, Kim D, Kim S, Kim H, Nissimagoudar A, Lee S, et al.
ACS Nano
. 2022 Nov;
PMID: 36374133
Ligands can control the surface chemistry, physicochemical properties, processing, and applications of nanomaterials. MXenes are the fastest growing family of two-dimensional (2D) nanomaterials, showing promise for energy, electronic, and environmental...
8.
Cui J, Lin X, Zhao W, Cummings P, Pruski M, Kobayashi T
J Phys Chem B
. 2022 Jun;
126(26):4889-4898.
PMID: 35731620
Despite having a lower energy density than common batteries, electric double-layer capacitors (EDLCs) offer several advantages for high-power applications, including high power density, quick charge and discharge time, and long...
9.
Popov I, Khamzin A, Matsumoto R, Zhao W, Lin X, Cummings P, et al.
J Phys Chem B
. 2022 Jun;
126(24):4572-4583.
PMID: 35687852
Solvent-in-salt (SIS) systems present promising materials for the next generation of energy storage applications. The ion dynamics is significantly different in these systems from that of ionic liquids and diluted...
10.
Quach C, Gilmer J, Pert D, Mason-Hogans A, Iacovella C, Cummings P, et al.
J Chem Phys
. 2022 Apr;
156(15):154902.
PMID: 35459321
Monolayer films have shown promise as a lubricating layer to reduce friction and wear of mechanical devices with separations on the nanoscale. These films have a vast design space with...