超级电容器
箔法
材料科学
电解质
纳米技术
储能
生物电子学
电极
电化学
电容
钼
生物相容性
化学工程
生物传感器
冶金
复合材料
化学
工程类
物理化学
功率(物理)
物理
量子力学
作者
Xiaofeng Zhang,Muhammad Sufyan Javed,Hongjia Ren,Xinkong Wei,Xinze Zhang,Shaukat Khan,Awais Ahmad,Ammar M. Tighezza,Ahmed M. Hassan,Weihua Han
摘要
The rapid advancement of biomedical technology has sparked increasing interest in developing biodegradable implantable energy storage devices for applications in biosensors and bioelectronics. However, the limited energy density, biocompatibility, and degradability of existing materials have posed significant challenges to their widespread adoption in the biomedical field. In response, this study presents an electrode material for a solid-state biodegradable supercapacitor consisting of an array structure of molybdenum oxide (MoOx) nanosheets in situ grown on water-soluble molybdenum foil (Mo-foil). The MoOx@Mo-foil electrode exhibits exceptional electrochemical performance, suppressing previous designs. It demonstrated a high capacitance of 433.3 F/g at 1 A/g, and even at 10 A/g, it has a favorable rate capability of 48.9%. Furthermore, cycling stability test revealed an outstanding endurance, with an impressive retention of 88.0% after 5000 cycles. An symmetrical supercapacitor was assembled by combining two MoOx@Mo-foil electrodes with remarkable energy storage capabilities and cycling stability of 94.3% over 5000 cycles. Additionally, the biodegradable supercapacitor exhibited a high energy density of 40.95 Wh/kg at 600.48 W/kg. Moreover, the device is fully biodegradable, which paves the way for advancing the field of bioelectronics and propelling the development of sustainable energy storage technologies for biomedical applications.
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