William Noid

Assistant Professor of Chemistry

William Noid

Huck Affiliations

Publication Tags

Liquids Temperature Entropy Proteins Atoms Thermodynamic Properties Compressibility Water Toluene Heptanes Field Theory (Physics) Thermodynamics Structural Properties Interactions Betaine Ionomers Protein Folding Protein Binding Trimethyloxamine Calorimetry Equations Of State Integral Equations Molecules Propane Sulfonation

Most Recent Papers

Systematic study of temperature and density variations in effective potentials for coarse-grained models of molecular liquids

Kathryn M. Lebold, William George Noid, 2019, Journal of Chemical Physics

BOCS

Nicholas J.H. Dunn, Kathryn M. Lebold, Michael R. Delyser, Joseph F. Rudzinski, William George Noid, 2018, Journal of Physical Chemistry B on p. 3363-3377

Extending pressure-matching to inhomogeneous systems via local-density potentials

Michael R. Delyser, William George Noid, 2017, Journal of Chemical Physics

Extended Ensemble Approach to Transferable Potentials for Low-Resolution Coarse-Grained Models of Ionomers

Joseph F. Rudzinski, Keran Lu, Scott Thomas Milner, Janna Kay Maranas, William George Noid, 2017, Journal of Chemical Theory and Computation on p. 2185-2201

Trimethylamine N-oxide stabilizes proteins via a distinct mechanism compared with betaine and glycine

Yi Ting Liao, Anthony C. Manson, Michael R. DeLyser, William George Noid, Paul S. Cremer, 2017, Proceedings of the National Academy of Sciences of the United States of America on p. 2479-2484

Van der Waals Perspective on Coarse-Graining

Nicholas J.H. Dunn, Thomas T. Foley, William George Noid, 2016, Accounts of Chemical Research on p. 2832-2840

Bottom-up coarse-grained models with predictive accuracy and transferability for both structural and thermodynamic properties of heptane-toluene mixtures

Nicholas J.H. Dunn, William George Noid, 2016, Journal of Chemical Physics

Assessing Coupled Protein Folding and Binding Through Temperature-Dependent Isothermal Titration Calorimetry

Debashish Sahu, Monique Bastidas, Chad W. Lawrence, William G. Noid, Scott A. Showalter, 2016, Methods in Enzymology on p. 23-45

The impact of resolution upon entropy and information in coarse-grained models

Thomas T. Foley, M. Scott Shell, William George Noid, 2015, Journal of Chemical Physics

Bottom-up coarse-grained models that accurately describe the structure, pressure, and compressibility of molecular liquids

Nicholas J.H. Dunn, William George Noid, 2015, Journal of Chemical Physics

High-Impact Papers

Effective force coarse-graining

Yanting Wang, William George Noid, Pu Liu, Gregory A. Voth, 2009, Physical Chemistry Chemical Physics on p. 2002-2015

Extended ensemble approach for deriving transferable coarse-grained potentials

J. W. Mullinax, William George Noid, 2009, Journal of Chemical Physics

Coarse-graining entropy, forces, and structures

Joseph F. Rudzinski, William George Noid, 2011, Journal of Chemical Physics

The multiscale coarse-graining method. IV. Transferring coarse-grained potentials between temperatures

Vinod Krishna, William George Noid, Gregory A. Voth, 2009, Journal of Chemical Physics

A generalized-Yvon-Born-Green theory for determining coarse-grained interaction potentials

J. W. Mullinax, William George Noid, 2010, Journal of Physical Chemistry C on p. 5661-5674

Generalized Yvon-Born-Green Theory for Molecular Systems

J. W. Mullinax, William George Noid, 2009, Physical Review Letters

The impact of resolution upon entropy and information in coarse-grained models

Thomas T. Foley, M. Scott Shell, William George Noid, 2015, Journal of Chemical Physics

Bottom-up coarse-grained models that accurately describe the structure, pressure, and compressibility of molecular liquids

Nicholas J.H. Dunn, William George Noid, 2015, Journal of Chemical Physics

Recovering physical potentials from a model protein databank

J. W. Mullinax, William George Noid, 2010, Proceedings of the National Academy of Sciences of the United States of America on p. 19867-19872

Trimethylamine N-oxide stabilizes proteins via a distinct mechanism compared with betaine and glycine

Yi Ting Liao, Anthony C. Manson, Michael R. DeLyser, William George Noid, Paul S. Cremer, 2017, Proceedings of the National Academy of Sciences of the United States of America on p. 2479-2484