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Molecular simulations and visualization: introduction and overview (2014)
Journal Article
Hirst, J., Glowacki, D., & Baaden, M. (2014). Molecular simulations and visualization: introduction and overview. Faraday Discussions, 169, https://doi.org/10.1039/C4FD90024C

Here we provide an introduction and overview of current progress in the field of molecular simulation and visualization, touching on the following topics: (1) virtual and augmented reality for immersive molecular simulations; (2) advanced visualizati... Read More about Molecular simulations and visualization: introduction and overview.

New CHARMM force field parameters for dehydrated amino acid residues, the key to lantibiotic molecular dynamics simulations (2014)
Journal Article
Turpin, E. R., Mulholland, S., Teale, A. M., Bonev, B. B., & Hirst, J. D. (2014). New CHARMM force field parameters for dehydrated amino acid residues, the key to lantibiotic molecular dynamics simulations. RSC Advances, 4(89), 48621-48631. https://doi.org/10.1039/c4ra09897h

Lantibiotics are an important class of naturally occurring antimicrobial peptides containing unusual dehydrated amino acid residues. In order to enable molecular dynamics simulations of lantibiotics, we have developed empirical force field parameters... Read More about New CHARMM force field parameters for dehydrated amino acid residues, the key to lantibiotic molecular dynamics simulations.

Accelerating electrostatic pair methods on graphical processing units to study molecules in supercritical carbon dioxide (2014)
Journal Article
Baker, J., & Hirst, J. (2014). Accelerating electrostatic pair methods on graphical processing units to study molecules in supercritical carbon dioxide. Faraday Discussions, 169, https://doi.org/10.1039/C4FD00012A

Traditionally, electrostatic interactions are modelled using Ewald techniques, which provide a good approximation, but are poorly suited to GPU architectures. We use the GPU versions of the LAMMPS MD package to implement and assess the Wolf summation... Read More about Accelerating electrostatic pair methods on graphical processing units to study molecules in supercritical carbon dioxide.

A theoretical study of the activity in Rh-catalyzed hydroformylation: the origin of the enhanced activity of the π-acceptor phosphinine ligand (2014)
Journal Article
Aguado-Ullate, S., Baker, J., González-González, V., Müller, C., Hirst, J., & Carbó, J. J. (2014). A theoretical study of the activity in Rh-catalyzed hydroformylation: the origin of the enhanced activity of the π-acceptor phosphinine ligand. Catalysis Science and Technology, 4, https://doi.org/10.1039/C3CY00956D

The factors governing the activity in Rh-catalyzed hydroformylation were investigated using a set of computational tools. We performed DFT calculations on the phosphinine- modified Rh catalyst [HRh(CO)3(PC5H2R3)] and compared it to the phosphane-modi... Read More about A theoretical study of the activity in Rh-catalyzed hydroformylation: the origin of the enhanced activity of the π-acceptor phosphinine ligand.