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Application Scopes of Miniaturized MXene-Functionalized Electrospun Nanofibers-Based Electrochemical Energy Devices
Small ( IF 13.0 ) Pub Date : 2023-12-28 , DOI: 10.1002/smll.202309572
Sanaz Khademolqorani 1, 2 , Seyedeh Nooshin Banitaba 2, 3 , Ashish Gupta 4 , Nazanin Poursharifi 1 , Ali Akbar Ghaffari 5 , Vijaykumar V Jadhav 6, 7, 8 , Waqas Ul Arifeen 9 , Mandeep Singh 4 , Munu Borah 10 , Elham Chamanehpour 11, 12 , Yogendra Kumar Mishra 12
Small ( IF 13.0 ) Pub Date : 2023-12-28 , DOI: 10.1002/smll.202309572
Sanaz Khademolqorani 1, 2 , Seyedeh Nooshin Banitaba 2, 3 , Ashish Gupta 4 , Nazanin Poursharifi 1 , Ali Akbar Ghaffari 5 , Vijaykumar V Jadhav 6, 7, 8 , Waqas Ul Arifeen 9 , Mandeep Singh 4 , Munu Borah 10 , Elham Chamanehpour 11, 12 , Yogendra Kumar Mishra 12
Affiliation
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Exploring combinatorial materials, as well as rational device configuration design, are assumed to be the key strategies for deploying versatile electrochemical devices. MXene sheets have revealed a high hydrophilic surface with proper mechanical and electrical characteristics, rendering them supreme additive candidates to integrate in electrospun electrochemical power tools. The synergetic effects of MXene 2D layers with the nanofibrous networks can boost actuator responsive ability, battery capacity retention, fuel cell stability, sensor sensitivity, and supercapacitor areal capacitance. Their superior mechanical features can be endowed to the electrospun layers through the embedding of the MXene additive. In this review, the preparation and inherent features of the MXene configurations are briefly evaluated. The fabrication and overall performance of the MXene-loaded nanofibers applicable in electrochemical actuators, batteries, fuel cells, sensors, and supercapacitors are comprehensively figured out. Eventually, an outlook on the future development of MXene-based electrospun composites is presented. A substantial focus has been devoted to date to engineering conjugated MXene and electrospun fibrous frames. The potential performance of the MXene-decorated nanofibers presents a bright future of nanoengineering toward technological growth. Meanwhile, a balance between the pros and cons of the synthesized MXene composite layers is worthwhile to consider in the future.
中文翻译:
小型化MXene功能化电纺纳米纤维电化学能源器件的应用范围
探索组合材料以及合理的器件配置设计被认为是部署多功能电化学器件的关键策略。 MXene 片材具有高亲水性表面,具有适当的机械和电气特性,使其成为集成到静电纺丝电化学电动工具中的最佳添加剂候选者。 MXene 2D 层与纳米纤维网络的协同效应可以提高执行器响应能力、电池容量保持能力、燃料电池稳定性、传感器灵敏度和超级电容器面积电容。通过嵌入 MXene 添加剂,可以将其卓越的机械特性赋予静电纺丝层。在这篇综述中,简要评估了 MXene 配置的制备和固有特征。全面了解了适用于电化学执行器、电池、燃料电池、传感器和超级电容器的 MXene 负载纳米纤维的制造和整体性能。最后,对 MXene 基静电纺复合材料的未来发展进行了展望。迄今为止,人们主要关注的是共轭 MXene 和电纺纤维框架的工程设计。 MXene 修饰的纳米纤维的潜在性能展现了纳米工程技术发展的光明前景。同时,合成的 MXene 复合层的优缺点之间的平衡值得未来考虑。
更新日期:2023-12-28
中文翻译:
小型化MXene功能化电纺纳米纤维电化学能源器件的应用范围
探索组合材料以及合理的器件配置设计被认为是部署多功能电化学器件的关键策略。 MXene 片材具有高亲水性表面,具有适当的机械和电气特性,使其成为集成到静电纺丝电化学电动工具中的最佳添加剂候选者。 MXene 2D 层与纳米纤维网络的协同效应可以提高执行器响应能力、电池容量保持能力、燃料电池稳定性、传感器灵敏度和超级电容器面积电容。通过嵌入 MXene 添加剂,可以将其卓越的机械特性赋予静电纺丝层。在这篇综述中,简要评估了 MXene 配置的制备和固有特征。全面了解了适用于电化学执行器、电池、燃料电池、传感器和超级电容器的 MXene 负载纳米纤维的制造和整体性能。最后,对 MXene 基静电纺复合材料的未来发展进行了展望。迄今为止,人们主要关注的是共轭 MXene 和电纺纤维框架的工程设计。 MXene 修饰的纳米纤维的潜在性能展现了纳米工程技术发展的光明前景。同时,合成的 MXene 复合层的优缺点之间的平衡值得未来考虑。
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