{"title":"基于氧化物的三电纳米发电机:能量收集领域的最新进展和未来前景","authors":"Supraja Potu, Anu Kulandaivel, Buchaiah Gollapelli, Uday Kumar Khanapuram, Rakesh Kumar Rajaboina","doi":"10.1016/j.mser.2024.100866","DOIUrl":null,"url":null,"abstract":"<div><div>Triboelectric nanogenerators (TENGs) have gained significant attention as a viable solution for energy harvesting, sensing, and self-powered systems. However, their effectiveness heavily relies on the materials employed. Although dielectric polymers, metals, 2D materials, organic and inorganic materials are frequently utilized in TENG design, a critical demand exists for additional materials to enhance TENG performance and expand its utility across a diverse range of applications. Oxide materials (OM) have emerged as promising candidates due to their remarkable attributes, such as biocompatibility, high sensitivity, non-toxicity, and high electron mobility, demonstrating significant promise for many energy harvesting applications. While previous reviews are based on polymers, metal-organic frameworks, 2D materials, and waste materials, the present report marks the first comprehensive review highlighting the significance of oxide materials-based TENGs (OM-TENGs) and their potential applications. This review thoroughly explores the growing interest in OM as triboelectric materials, meticulously examining various types of OM-TENGs and their output performances. Additionally, the study examines the performance of OM-TENGs in energy harvesting, self-powered sensing, human-machine interaction, and their integration into wearable systems. The final part of the review highlights the necessity for further research on OM-TENGs and offers recommendations for future studies to propel this field forward.</div></div>","PeriodicalId":386,"journal":{"name":"Materials Science and Engineering: R: Reports","volume":"161 ","pages":"Article 100866"},"PeriodicalIF":31.6000,"publicationDate":"2024-10-22","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Oxide based triboelectric nanogenerators: Recent advances and future prospects in energy harvesting\",\"authors\":\"Supraja Potu, Anu Kulandaivel, Buchaiah Gollapelli, Uday Kumar Khanapuram, Rakesh Kumar Rajaboina\",\"doi\":\"10.1016/j.mser.2024.100866\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><div>Triboelectric nanogenerators (TENGs) have gained significant attention as a viable solution for energy harvesting, sensing, and self-powered systems. However, their effectiveness heavily relies on the materials employed. Although dielectric polymers, metals, 2D materials, organic and inorganic materials are frequently utilized in TENG design, a critical demand exists for additional materials to enhance TENG performance and expand its utility across a diverse range of applications. Oxide materials (OM) have emerged as promising candidates due to their remarkable attributes, such as biocompatibility, high sensitivity, non-toxicity, and high electron mobility, demonstrating significant promise for many energy harvesting applications. While previous reviews are based on polymers, metal-organic frameworks, 2D materials, and waste materials, the present report marks the first comprehensive review highlighting the significance of oxide materials-based TENGs (OM-TENGs) and their potential applications. This review thoroughly explores the growing interest in OM as triboelectric materials, meticulously examining various types of OM-TENGs and their output performances. Additionally, the study examines the performance of OM-TENGs in energy harvesting, self-powered sensing, human-machine interaction, and their integration into wearable systems. 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引用次数: 0
摘要
三电纳米发电机(TENGs)作为能量收集、传感和自供电系统的可行解决方案,已经获得了极大的关注。然而,其有效性在很大程度上取决于所采用的材料。虽然在 TENG 设计中经常使用介电聚合物、金属、二维材料、有机和无机材料,但仍迫切需要更多材料来提高 TENG 的性能,并扩大其在各种应用中的效用。氧化物材料(OM)具有生物相容性、高灵敏度、无毒性和高电子迁移率等显著特性,在许多能量收集应用中大有可为。以往的综述以聚合物、金属有机框架、二维材料和废物材料为基础,而本报告则是首次全面综述基于氧化物材料的 TENGs(OM-TENGs)的重要性及其潜在应用。本综述深入探讨了人们对氧化物作为三电材料日益增长的兴趣,细致研究了各种类型的 OM-TENGs 及其输出性能。此外,研究还探讨了 OM-TENG 在能量收集、自供电传感、人机交互以及集成到可穿戴系统中的性能。综述的最后部分强调了进一步研究 OM-TENGs 的必要性,并为今后的研究提出了建议,以推动这一领域的发展。
Oxide based triboelectric nanogenerators: Recent advances and future prospects in energy harvesting
Triboelectric nanogenerators (TENGs) have gained significant attention as a viable solution for energy harvesting, sensing, and self-powered systems. However, their effectiveness heavily relies on the materials employed. Although dielectric polymers, metals, 2D materials, organic and inorganic materials are frequently utilized in TENG design, a critical demand exists for additional materials to enhance TENG performance and expand its utility across a diverse range of applications. Oxide materials (OM) have emerged as promising candidates due to their remarkable attributes, such as biocompatibility, high sensitivity, non-toxicity, and high electron mobility, demonstrating significant promise for many energy harvesting applications. While previous reviews are based on polymers, metal-organic frameworks, 2D materials, and waste materials, the present report marks the first comprehensive review highlighting the significance of oxide materials-based TENGs (OM-TENGs) and their potential applications. This review thoroughly explores the growing interest in OM as triboelectric materials, meticulously examining various types of OM-TENGs and their output performances. Additionally, the study examines the performance of OM-TENGs in energy harvesting, self-powered sensing, human-machine interaction, and their integration into wearable systems. The final part of the review highlights the necessity for further research on OM-TENGs and offers recommendations for future studies to propel this field forward.
期刊介绍:
Materials Science & Engineering R: Reports is a journal that covers a wide range of topics in the field of materials science and engineering. It publishes both experimental and theoretical research papers, providing background information and critical assessments on various topics. The journal aims to publish high-quality and novel research papers and reviews.
The subject areas covered by the journal include Materials Science (General), Electronic Materials, Optical Materials, and Magnetic Materials. In addition to regular issues, the journal also publishes special issues on key themes in the field of materials science, including Energy Materials, Materials for Health, Materials Discovery, Innovation for High Value Manufacturing, and Sustainable Materials development.
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