Identification of Sustainable Convergence Technology for Batteries via Multiplex Link Prediction (August 2024)

IF 4.6 3区 管理学 Q1 BUSINESS
Dong Hyun Lim;So Young Sohn
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引用次数: 0

Abstract

To meet the continuously increasing demand for batteries in electrical devices, solutions in terms of theoretical capacity, safety, and reusability are required. Therefore, it is important to investigate the development trends of sustainable battery technologies by forecasting technological convergence concerning these three aspects. However, no lithium-based battery-related studies have analyzed the fusion of technologies regarding multiple aspects. In this article, we proposed a multiplex network to identify the sustainable convergence of lithium-based battery technologies. We utilized the patents filed at the United States Patent and Trademark Office. The proposed multiplex network consists of three layers representing co-occurrence networks of international patent classification codes for storage, safety, and recycling technologies of batteries, respectively. Specifically, we focused on the technological convergence of the lithium-ion battery, the most influential energy storage solution for electronic products, and the lithium-based solid-state battery, which can be applied to recently emerging robust safety and energy-intensive products. The result of the article suggests future battery technology areas that consider three aspects. This article is expected to contribute to presenting guidelines for sustainable technology development to stakeholders in the complexly characterized battery industry.
通过多重链路预测确定电池的可持续融合技术(2024 年 8 月)
为了满足电气设备对电池不断增长的需求,需要在理论容量、安全性和可重复使用性方面找到解决方案。因此,通过预测这三个方面的技术融合来研究可持续电池技术的发展趋势非常重要。然而,目前还没有与锂电池相关的研究对多方面的技术融合进行分析。在本文中,我们提出了一个多重网络来识别锂电池技术的可持续融合。我们利用了在美国专利商标局申请的专利。提议的多重网络由三层组成,分别代表电池存储、安全和回收技术的国际专利分类代码的共现网络。具体而言,我们重点关注了电子产品中最具影响力的储能解决方案--锂离子电池与锂基固态电池的技术融合,后者可应用于近期新兴的稳健安全和能源密集型产品。文章从三个方面提出了未来电池技术领域的建议。希望这篇文章能为特性复杂的电池行业的利益相关者提供可持续技术发展指南。
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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来源期刊
IEEE Transactions on Engineering Management
IEEE Transactions on Engineering Management 管理科学-工程:工业
CiteScore
10.30
自引率
19.00%
发文量
604
审稿时长
5.3 months
期刊介绍: Management of technical functions such as research, development, and engineering in industry, government, university, and other settings. Emphasis is on studies carried on within an organization to help in decision making or policy formation for RD&E.
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