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Developing the next generation of supercapacitor technology that exceeds the working frequency of conventional aluminum electrolyte capacitors with an ultralong life is significantly important for future microelectronic applications. In article number 1807116, Cheng Yang and co‐workers report a laser triggered method for converting MoSe2 into 1T phase for electrodes in a microsupercapacitor, showing...
Commercial aluminium electrolyte capacitors (AECs) are too large for integration in future highly integrated electronic systems. Supercapacitors, in comparison, possess a much higher capacitance per unit volume and can be embedded as passive capacitors to address such challenges in electronics scaling. However, the slow frequency response (<101 Hz) typical of supercapacitors is a major hurdle to...
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