Characterization of the scientific output on lithium batteries through SciVal topic analysis

Data & Metadata Pub Date : 2022-12-17 DOI:10.56294/dm20225

Maria Carla Fernández Delgado, Julio Alberto Ramírez Mendoza, Alejandro Luis Cisnero Piñero

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引用次数: 1

Abstract

Introduction: in the context of the depletion of fossil fuels and the threat of climate change, countries are betting on a change in the energy paradigm, where lithium-ion batteries are at the technological frontier and their production has become widespread in recent decades. Objective: to characterize the scientific output on lithium-ion batteries by analyzing SciVal topics. Method: bibliometric study on the scientific output published in Scopus concerning lithium batteries between 2017 and 2021. SciVal was used to analyze articles clustered in the topic "Lithium-ion Batteries; Lithium Ion; Electrodes". Production, citation and collaboration indicators were determined. Result: 98 articles were published in this topic, where the most productive year in papers and citations was 2017 (%Ndoc=25,51 %; %Ncit=46,53). 65,3 % of the articles were registered in the area "Materials Science" and 51 % within the area "Chemistry". 2 % of the articles were found in the top 1 % of the most cited articles, 27,5 % presented international collaboration. China (Ndoc=64), Japan (Ndoc=)20 and the United States (Ndoc=8) concentrated most of the scientific output, with China Three Gorges University being the most productive institution (Ndoc=11). Conclusions: the scientific output on lithium batteries was mainly concentrated in first quartile journals, with articles in the areas of materials science and chemistry. There was a high rate of international collaboration, however, a low University - Company collaboration.

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通过SciVal主题分析表征锂电池的科学产出

导言:在化石燃料枯竭和气候变化威胁的背景下，各国正押注于能源模式的变化，锂离子电池处于技术前沿，近几十年来其生产已经普及。目的:通过对科学期刊主题的分析，对锂离子电池的科研成果进行表征。方法:对2017 - 2021年在Scopus上发表的锂电池相关科学产出进行文献计量学研究。SciVal用于分析聚集在“锂离子电池;锂离子;电极”。确定了生产、引用和合作指标。结果:该课题共发表论文98篇，论文和被引次数最多的年份为2017年(%Ndoc=25,51 %;% Ncit = 46, 53)。65.3%的文章注册在“材料科学”领域，51%的文章注册在“化学”领域。2%的文章位于被引频次前1%，27.5%的文章为国际合作。中国(Ndoc=64)、日本(Ndoc= 20)和美国(Ndoc=8)集中了大部分科研产出，其中中国三峡大学是产出最高的院校(Ndoc=11)。结论:锂电池的科学产出主要集中在前四分位数期刊，文章集中在材料科学和化学领域。国际合作的比例很高，然而，大学与公司的合作却很低。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Data & Metadata

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