9 research outputs found
Towards the simulation of biomolecules: optimisation of peptide-capped glycine using FFLUX
Get PDFYesThe optimisation of a peptide-capped glycine using the novel force field FFLUX is presented. FFLUX is a force field based on the machine-learning method kriging and the topological energy partitioning method called Interacting Quantum Atoms. FFLUX has a completely different architecture to that of traditional force fields, avoiding (harmonic) potentials for bonded, valence and torsion angles. In this study, FFLUX performs an optimisation on a glycine molecule and successfully recovers the target density-functional theory energy with an error of 0.89 ± 0.03 kJ mol−1. It also recovers the structure of the global minimum with a root-mean-squared deviation of 0.05 Å (excluding hydrogen atoms). We also show that the geometry of the intra-molecular hydrogen bond in glycine is recovered accurately.EPSRC Established Career Fellowship [grant number EP/K005472
Anion-dependent structural diversity of cadmium(II) complexes: synthesis, crystal structures, luminescence properties, and unusual C-H/σ supramolecular interactions involving σ-aromatic M 2
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Iron sandwiched between group 13 analogues of N-Heterocyclic carbene: A theoretical investigation
No full textStructural analysis of tris(5-methyl- [1,3,5]-dithiazinan-2-yl)stibine, its reactions with chalcogens. Intramolecular chalcogen-bonding interactions
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