SCHEDULED MAINTENANCE
Multiscale QM/MM modelling of catalytic systems with ChemShell†
a
Chin
Yong,
a
David S. D.
Gunn,
a
John A.
Purton,
a
Jamal
Abdul Nasir,
b
Xingfan
Zhang,
b
Lei
Zhu,
b
Qing
Hou,
b
Andrew J.
Logsdail,
c
Scott M.
Woodley,
b
Hans M.
Senn,
d
C. Richard A.
Catlow,
bc
Alexey A.
Sokol
b
and
Thomas W.
Keal
*a
Abstract
Hybrid quantum mechanical/molecular mechanical (QM/MM) methods are a powerful computational tool for the investigation of all forms of catalysis, as they allow for an accurate description of reactions occurring at catalytic sites in the context of a complicated electrostatic environment. The scriptable computational chemistry environment ChemShell is a leading software package for QM/MM calculations, providing a flexible, high performance framework for modelling both biomolecular and materials catalysis. We present an overview of recent applications of ChemShell to problems in catalysis and review new functionality introduced into the redeveloped Python-based version of ChemShell to support catalytic modelling. These include a fully guided workflow for biomolecular QM/MM modelling, starting from an experimental structure, a periodic QM/MM embedding scheme to support modelling of metallic materials, and a comprehensive set of tutorials for biomolecular and materials modelling.
- This article is part of the themed collections: 2023 PCCP Reviews and Computational Modelling as a Tool in Catalytic Science
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