The seventh blind test of crystal structure prediction: structure ranking methods
The seventh blind test of crystal structure prediction: structure ranking methods
A seventh blind test of crystal structure prediction has been organized by the Cambridge Crystallographic Data Centre. The results are presented in two parts, with this second part focusing on methods for ranking crystal structures in order of stability. The exercise involved standardized sets of structures seeded from a range of structure generation methods. Participants from 22 groups applied several periodic DFT-D methods, machine learned potentials, force fields derived from empirical data or quantum chemical calculations, and various combinations of the above. In addition, one non-energy-based scoring function was used. Results showed that periodic DFT-D methods overall agreed with experimental data within expected error margins, while one machine learned model, applying system-specific AIMnet potentials, agreed with experiment in many cases demonstrating promise as an efficient alternative to DFT-based methods. For target XXXII, a consensus was reached across periodic DFT methods, with consistently high predicted energies of experimental forms relative to the global minimum (above 4 kJ mol−1 at both low and ambient temperatures) suggesting a more stable polymorph is likely not yet observed. The calculation of free energies at ambient temperatures offered improvement of predictions only in some cases (for targets XXVII and XXXI). Several avenues for future research have been suggested, highlighting the need for greater efficiency considering the vast amounts of resources utilized in many cases.
Hunnisett, Lily M.
cd249b7f-55ff-4f6a-8aeb-b7f71c93731e
Francia, Nicholas
926b233c-4eaf-42c0-b051-ef9c5bef5835
Nyman, Jonas
dfaf6226-8a89-4e83-91de-9edc0170a48c
Day, Graeme M.
e3be79ba-ad12-4461-b735-74d5c4355636
17 October 2024
Hunnisett, Lily M.
cd249b7f-55ff-4f6a-8aeb-b7f71c93731e
Francia, Nicholas
926b233c-4eaf-42c0-b051-ef9c5bef5835
Nyman, Jonas
dfaf6226-8a89-4e83-91de-9edc0170a48c
Day, Graeme M.
e3be79ba-ad12-4461-b735-74d5c4355636
Hunnisett, Lily M., Francia, Nicholas and Nyman, Jonas
,
et al.
(2024)
The seventh blind test of crystal structure prediction: structure ranking methods.
Acta Crystallographica Section B: Structural Science, Crystal Engineering and Materials.
(doi:10.1107/S2052520624008679).
Abstract
A seventh blind test of crystal structure prediction has been organized by the Cambridge Crystallographic Data Centre. The results are presented in two parts, with this second part focusing on methods for ranking crystal structures in order of stability. The exercise involved standardized sets of structures seeded from a range of structure generation methods. Participants from 22 groups applied several periodic DFT-D methods, machine learned potentials, force fields derived from empirical data or quantum chemical calculations, and various combinations of the above. In addition, one non-energy-based scoring function was used. Results showed that periodic DFT-D methods overall agreed with experimental data within expected error margins, while one machine learned model, applying system-specific AIMnet potentials, agreed with experiment in many cases demonstrating promise as an efficient alternative to DFT-based methods. For target XXXII, a consensus was reached across periodic DFT methods, with consistently high predicted energies of experimental forms relative to the global minimum (above 4 kJ mol−1 at both low and ambient temperatures) suggesting a more stable polymorph is likely not yet observed. The calculation of free energies at ambient temperatures offered improvement of predictions only in some cases (for targets XXVII and XXXI). Several avenues for future research have been suggested, highlighting the need for greater efficiency considering the vast amounts of resources utilized in many cases.
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Accepted/In Press date: 3 September 2024
Published date: 17 October 2024
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Local EPrints ID: 495622
URI: http://eprints.soton.ac.uk/id/eprint/495622
ISSN: 2052-5206
PURE UUID: 786a504c-8af1-4888-aaac-e5cb8fac0c36
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Date deposited: 19 Nov 2024 17:47
Last modified: 20 Nov 2024 02:44
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Author:
Lily M. Hunnisett
Author:
Nicholas Francia
Author:
Jonas Nyman
Corporate Author: et al.
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