eScience Infrastructures in Physical Chemistry
eScience Infrastructures in Physical Chemistry
As the volume of data associated with scientific research has exploded over recent years, the use of digital infrastructures to support this research and the data underpinning it has increased significantly. Physical chemists have been making use of eScience infrastructures since their conception, but in the last five years their usage has increased even more. While these infrastructures have not greatly affected the chemistry itself, they have in some cases had a significant impact on how the research is undertaken. The combination of the human effort of collaboration to create open source software tools and semantic resources, the increased availability of hardware for the laboratories, and the range of data management tools available has made the life of a physical chemist significantly easier. This review considers the different aspects of eScience infrastructures and explores how they have improved the way in which we can conduct physical chemistry research.
collaboration, data, digital, eScience, open science, semantic web, SemanticWeb
97-116
Kanza, Samantha
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Willoughby, Cerys
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Bird, Colin Leonard
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Frey, Jeremy G.
ba60c559-c4af-44f1-87e6-ce69819bf23f
April 2022
Kanza, Samantha
b73bcf34-3ff8-4691-bd09-aa657dcff420
Willoughby, Cerys
118d1e49-2c54-4f4d-bd49-fe3a192df9d7
Bird, Colin Leonard
0b41e36f-14b8-4995-a441-0467cce0201a
Frey, Jeremy G.
ba60c559-c4af-44f1-87e6-ce69819bf23f
Kanza, Samantha, Willoughby, Cerys, Bird, Colin Leonard and Frey, Jeremy G.
(2022)
eScience Infrastructures in Physical Chemistry.
Annual Review of Physical Chemistry, 73, .
(doi:10.1146/annurev-physchem-082120-041521).
Abstract
As the volume of data associated with scientific research has exploded over recent years, the use of digital infrastructures to support this research and the data underpinning it has increased significantly. Physical chemists have been making use of eScience infrastructures since their conception, but in the last five years their usage has increased even more. While these infrastructures have not greatly affected the chemistry itself, they have in some cases had a significant impact on how the research is undertaken. The combination of the human effort of collaboration to create open source software tools and semantic resources, the increased availability of hardware for the laboratories, and the range of data management tools available has made the life of a physical chemist significantly easier. This review considers the different aspects of eScience infrastructures and explores how they have improved the way in which we can conduct physical chemistry research.
Text
eSciences_Infrastructures_for_Physical_Chemistry (8)
- Accepted Manuscript
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e-pub ahead of print date: 9 December 2021
Published date: April 2022
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Publisher Copyright:
© 2022 Annual Reviews Inc.. All rights reserved.
Keywords:
collaboration, data, digital, eScience, open science, semantic web, SemanticWeb
Identifiers
Local EPrints ID: 453527
URI: http://eprints.soton.ac.uk/id/eprint/453527
ISSN: 0066-426X
PURE UUID: 17d505d6-58f8-48a9-8380-d6d20b4430f0
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Date deposited: 18 Jan 2022 18:15
Last modified: 10 Apr 2024 04:02
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Contributors
Author:
Cerys Willoughby
Author:
Colin Leonard Bird
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