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Latest Advances in Flexible Symmetric Supercapacitors: From Material Engineering to Wearable Applications.
Accounts of Chemical Research ( IF 16.4 ) Pub Date : 2020-07-13 , DOI: 10.1021/acs.accounts.0c00205 Chao Lu 1 , Xi Chen 1
Accounts of Chemical Research ( IF 16.4 ) Pub Date : 2020-07-13 , DOI: 10.1021/acs.accounts.0c00205 Chao Lu 1 , Xi Chen 1
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Flexible symmetric supercapacitors (FSSs) have received enormous attention in energy storage and conversion areas by virtue of their superior flexibility, high power density, and good cycling stability. FSS devices are typically composed of one solid electrolyte layer laminated by two electrode layers, which can realize energy storage, response to electrical stimulus, and even detect external stress or strain change based on various working mechanisms. The as-mentioned multifunctions of FSS devices are expected to play many critical roles in practical applications of wearable power supply and in artificial intelligence. This realization strongly associates with the rapid development of materials science and engineering, especially nanomaterials and smart structure design, and the multifunctions are results of rational designs of critical materials, optimization of device dimensions, and selectivity of active ion species.
中文翻译:
柔性对称超级电容器的最新进展:从材料工程到可穿戴应用。
柔性对称超级电容器(FSS)凭借其卓越的灵活性,高功率密度和良好的循环稳定性,在储能和转换领域受到了广泛关注。FSS设备通常由一层固体电解质层和两层电极层组成,可实现能量存储,响应电刺激,甚至基于各种工作机制检测外部应力或应变变化。FSS设备的上述多功能功能有望在可穿戴电源的实际应用和人工智能中扮演许多关键角色。这种认识与材料科学和工程学的快速发展密切相关,尤其是纳米材料和智能结构设计,而多功能是关键材料合理设计的结果,
更新日期:2020-08-18
中文翻译:
柔性对称超级电容器的最新进展:从材料工程到可穿戴应用。
柔性对称超级电容器(FSS)凭借其卓越的灵活性,高功率密度和良好的循环稳定性,在储能和转换领域受到了广泛关注。FSS设备通常由一层固体电解质层和两层电极层组成,可实现能量存储,响应电刺激,甚至基于各种工作机制检测外部应力或应变变化。FSS设备的上述多功能功能有望在可穿戴电源的实际应用和人工智能中扮演许多关键角色。这种认识与材料科学和工程学的快速发展密切相关,尤其是纳米材料和智能结构设计,而多功能是关键材料合理设计的结果,
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