Abstract
AbstractCitation analysis of a certain publication acknowledges its impact on the scientific community. This study conducted a multivariate analysis of the top 50 most cited articles published on the field of Bioactive Glass. A systemic search was performed using the “All database” section of the Web of Science to retrieve the top 50 most cited original publications. The selected articles were then manually cross-matched with Elsevier Scopus and Google Scholar Database. Parameters such as article title, authorship, institution, country of publication, year, citation count, citation density, current citation index, and journal name were retrieved from Web of Science. Different ranges of citation numbers were retrieved for these publications in which 197-913 are from Web of Science, 209-962 are from Elsevier Scopus, and 269-1225 are from Google Scholar. A total of 153 authors contributed to this marked list, where Professor L.L. Hench contributed the highest number of articles (n=21). Imperial College London published the highest number of articles (n=21). In summary, this study provides a good scientometric picture of bioactive glass related publications, which illustrate the trend of biomaterials development over the years and suggests future scopes to the scientific community.
Highlights
Citation analysis of a certain publication acknowl- Biomaterials from various sources have been used for cenedges its impact on the scientific community
The top 50 most cited original articles published on bioactive glass (BG)
The citation frequency (CF) is defined as the number of times the article was cited in the literature, whereas the average number of citations per year is called citation density (CD)
Summary
Abstract: Citation analysis of a certain publication acknowl- Biomaterials from various sources have been used for cenedges its impact on the scientific community. A systemic degradable materials used in 1D to 3D functionalized prodsearch was performed using the “All database” section of ucts These biomaterials possess good biological the Web of Science to retrieve the top 50 most cited origi- properties and incite specific cell responses and induce nal publications. A systematic literature the analysis of thousands of papers written about a specific search was performed on October 19, 2020 using the “All topic or field and finds the most effective publications, au- database” sections of the Web of Science (WoS), Elsevier thors, journals, institutions, and countries to assist readers Scopus (ES) and Google Scholar (GS) with no language or researchers within a minimal period.
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