Molecular and Multiscale Modeling: Review on the Theories and Applications in Chemical Engineering

This work presents Atomistic Topology Operations in MATLAB (atom), an open source library of modular MATLAB routines which comprise a general and flexible framework for manipulation of atomistic systems. The purpose of the atom library is simply to facilitate common operations performed for construction, manipulation, or structural analysis. Due to the data structure used, atoms and molecules can be operated upon based on different chemical names or attributes, such as atom-or molecule-ID, name, residue name, charge, positions, etc. Furthermore, the Bond Valence Method and a neighbor-distance analysis can be performed to assign many chemical properties of inorganic molecules. Apart from reading and writing common coordinate files (.pdb, .xyz, .gro, .cif) and trajectories (.dcd, .trr, .xtc; binary formats are parsed via third-party packages), the atom library can also be used to generate topology files with bonding and angle information taking the periodic boundary conditions into account, and supports basic Gromacs, NAMD, LAMMPS, and RASPA2 topology file formats. Focusing on clay-mineral systems, the library supports CLAYFF (Cygan, 2004) but can also generate topology files for the INTERFACE forcefield (Heinz, 2005, 2013) for Gromacs and NAMD.

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Microscale technology and biocatalytic processes: opportunities and challenges for synthesis

Wohlgemuth¹,

Plazl

Žnidaršič–Plazl

et al. 2015

Trends in Biotechnology

181

151

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Molecular and Multiscale Modeling: Review on the Theories and Applications in Chemical Engineering

Cited by 6 publications

References 82 publications

Challenges Associated to the Multi-Scale Modeling of Fuel Electro-Oxidation for Fuel Cell Applications

Challenges Associated to the Multi-Scale Modeling of Fuel Electro-Oxidation for Fuel Cell Applications

atom: A Matlab Package for Manipulation of Molecular Systems

Microscale technology and biocatalytic processes: opportunities and challenges for synthesis

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