用于可穿戴传感器的导电聚合物:使用 VOSviewer 进行文献计量分析

Abraham Mora, Arrizal Abdul Aziz
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引用次数: 0

摘要

本研究旨在使用 VOSviewer 对可穿戴传感器用导电聚合物这一主题的研究进展进行文献计量分析。数据提取自 Dimensions 数据库,时间为 2014 年至 2023 年 8 月。268 篇 Dimensions 文章与关键词相关。使用 VOSviewer 对元数据中的标题和摘要进行了共现分析。结果,通过检索方法获得了 9544 个术语,但只有 184 个符合在所有检索文章中至少出现 10 次的阈值,因此被选中进行进一步分析。从 2014 年到 2023 年 8 月,论文发表数量呈持续上升趋势。根据关键词共现的网络可视化,可以看出有六个群组,它们根据共同的主题将所有特定的关键词组合在一起。最近的关键词(出现在 2021 年至 2022 年之间)包括导电水凝胶、聚合物水凝胶、柔性传感器、MXene、应变传感器和可拉伸应变传感器。根据这项研究,建议进一步了解导电和柔性水凝胶材料,以及通过引入 MXene 增强导电聚合物的电气和机械性能的可能性。这些材料可用于柔性应变传感器和其他可穿戴传感器等应用。
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Conducting Polymers for Wearable Sensors: A Bibliometric Analysis Using VOSviewer
The objective of this study is to conduct a bibliometric analysis using VOSviewer on the research progress of the conducting polymer for wearable sensors topic. Data was extracted from the Dimensions database from 2014 to August 2023. 268 Dimensions articles were relevant to the keywords. The title and abstract from the metadata were employed to be analyzed for co-occurrence using VOSviewer. As a result, 9544 terms were obtained through the search method, but only 184 met the threshold of 10 minimum occurrences in all retrieved articles and were selected for further analysis. There was a consistent upward trend in publication numbers between 2014 to August 2023. Based on the network visualization of keyword co-occurrence, it evidenced six clusters that group all specific keywords based on the common themes. The most recent keywords (occurred between 2021 and 2022) included conductive hydrogel, polymer hydrogel, flexible sensor, MXene, strain sensor, and stretchable strain sensor. Based on this study, it is suggested to discover more about conducting and flexible hydrogel materials and the possibilities to enhance the electrical and mechanical properties of conducting polymers by introducing MXene. The materials are viewed for applications such as flexible strain sensors and other wearable sensors.
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