Bibliometric review and recent advances in total scattering pair distribution function analysis: 21 years in retrospect

Damilola O. Akamo; Ahmed Olanrewaju Ijaola; Toyosi T. George; Katharine Page; David J. Keffer; Yuzhan Li; Monojoy Goswami; Tim J. LaClair; Kyle Gluesenkamp; Orlando Rios

doi:10.1080/26889277.2022.2150897

European Journal of Materials (Nov 2022)

Bibliometric review and recent advances in total scattering pair distribution function analysis: 21 years in retrospect

Damilola O. Akamo,
Ahmed Olanrewaju Ijaola,
Toyosi T. George,
Katharine Page,
David J. Keffer,
Yuzhan Li,
Monojoy Goswami,
Tim J. LaClair,
Kyle Gluesenkamp,
Orlando Rios

Affiliations

Damilola O. Akamo: The Bredesen Center for Interdisciplinary Research and Graduate Education, University of Tennessee
Ahmed Olanrewaju Ijaola: Department of Mechanical Engineering, Wichita State University
Toyosi T. George: Department of Food Science and Technology College Station, Texas A&M University
Katharine Page: Buildings and Transportation Science Division, Oak Ridge National Laboratory
David J. Keffer: Department of Material Science and Engineering, University of Tennessee
Yuzhan Li: School of Materials Science and Engineering, University of Science and Technology
Monojoy Goswami: Buildings and Transportation Science Division, Oak Ridge National Laboratory
Tim J. LaClair: Buildings and Transportation Science Division, Oak Ridge National Laboratory
Kyle Gluesenkamp: Buildings and Transportation Science Division, Oak Ridge National Laboratory
Orlando Rios: Department of Material Science and Engineering, University of Tennessee

DOI: https://doi.org/10.1080/26889277.2022.2150897
Journal volume & issue: Vol. 0, no. 0
pp. 1 – 35

Abstract

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Global research activities have been driven by the quest to develop and characterize novel materials for technological advancements. The total scattering pair distribution function (TSPDF) is a powerful and versatile characterization technique for examining the structural details of diverse complex materials including liquid, amorphous, disordered crystalline, and nanostructured materials. Thus, it is critical to keep track of research progress, identify research gaps, and future research directions of the application of the TSPDF technique in materials development and discovery. In this work, a bibliometric analysis of literature regarding the TSPDF technique between 2000 and 2021 was conducted using datasets retrieved from the Web of Science database. The research trends based on publication outputs, research subject distribution, co-authorships among institutions, countries/regions, co-citation of referenced sources, and keyword co-occurrence are evaluated and discussed herein. The impact of the TSPDF technique is projected to increase due to its importance in probing emerging functional materials, and the advances in specialized facilities and instrumentation among the scientific communities engaged with it. Finally, current and emerging research hotspots related to TSPDF technique such as catalysis, computer modeling and simulation, pharmaceutics, machine learning, hydrogen storage, battery materials, and layered structured materials are also identified and discussed.

Published in European Journal of Materials

ISSN: 2688-9277 (Online)
Publisher: Taylor & Francis Group
Country of publisher: United Kingdom
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials
Website: https://www.tandfonline.com/tems

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