Recently, the team of Wu Zhongshuai, a researcher in the Two-dimensional Materials Chemistry and Energy Application Research Group of the State Key Laboratory of Catalysis, Dalian Institute of Chemical Physics, Chinese Academy of Sciences, and Lei Weiwei, a researcher from Deakin University in Australia, wrote a micro super A review article on Micro-supercapacitors Powered Integrated System for Flexible Electronics.
Flexible electronics has the potential to innovate human life style, especially its application in real-time monitoring of human physiological information, augmented reality (AR) and virtual reality (VR) has attracted the attention of researchers. Miniature supercapacitors have the advantages of high power density, long operating life, small size, light weight, good mechanical properties and easy integration. In recent years, they have been widely used as micro energy storage devices in flexible electronics. Wu Zhongshuai’s team has long been engaged in the rational design and device construction of key materials for micro-supercapacitors, in the preparation and structural control of high-activity two-dimensional energy materials, high-precision large-scale manufacturing of microelectrodes, microelectrode-high-voltage electrolyte coupling mechanism and interface regulation laws, System research on the functional design and microsystem integration of high-performance micro energy storage devices has attracted the attention of domestic and foreign counterparts.
Based on the previous research foundation, this review summarizes the preparation and microstructure design of key electrode materials and electrolytes of high-performance flexible micro-supercapacitors, module integration technology and performance evaluation standards; discusses the integrated systems driven by flexible micro-supercapacitors in photodetection, gas Sensing, human motion monitoring, real-time detection of human physiological signals, and micro-LED application progress in important flexible electronics directions, focusing on the advantages and application prospects of flexible electronics driven by micro-supercapacitors to replace existing commercial devices; The structure-effect relationship between electrode material and electrolyte material structure and performance, the high-efficiency development and large-scale production requirements of highly integrated micro-supercapacitor technology, and the needs of different flexible electronic specific applications, etc., propose an integrated micro-supercapacitor drive for flexible electronics Problems and challenges existing in the development of chemical systems. This review provides some inspiration and scientific guidance for the rational design and development of integrated systems driven by micro-supercapacitors and their applications in flexible electronics.
The review was published in "Energy Storage Materials". The research work is funded by the National Key R&D Program and the Institute of Clean Energy Innovation of the Chinese Academy of Sciences.
Micro super capacitor drive integrated system
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