“…At present, a variety of wearable and portable consumer electronics have been widely utilized such as mobile phones, Apple Watch, Google Glass, and Xiaomi band. [60][61][62][63] Meanwhile, many novel wearable microelectronics are on the way and will enter our lives soon, [4,64] which brings higher requirements for corresponding high-performing micro-power sources. Typically, these energy-storage devices need to be miniature, lightweight, flexible, and safe.…”
Section: Power Wearable Electronics and Store Energy In Vitromentioning
The rise of wearable and implantable microelectronics calls for the corresponding high‐performance micropower sources. Rechargeable micro‐batteries (MBs) are considered the most promising candidate due to their high energy density and stable voltage output. To date, various MBs with different configurations have been designed to meet the ever‐growing high energy consumption requirements of microelectronic devices. Therefore, it is very urgent to summarize the current challenges of MBs and discuss solutions for future research. In this perspective, a comprehensive overview and insights on rechargeable MBs are carefully presented with an emphasis on the design of various configurations. The representative preparation methods and application scenarios of various MBs have been summarized. The challenges and future perspectives are also discussed to provide insights into the forward‐looking research and potential directions of this promising field.
“…At present, a variety of wearable and portable consumer electronics have been widely utilized such as mobile phones, Apple Watch, Google Glass, and Xiaomi band. [60][61][62][63] Meanwhile, many novel wearable microelectronics are on the way and will enter our lives soon, [4,64] which brings higher requirements for corresponding high-performing micro-power sources. Typically, these energy-storage devices need to be miniature, lightweight, flexible, and safe.…”
Section: Power Wearable Electronics and Store Energy In Vitromentioning
The rise of wearable and implantable microelectronics calls for the corresponding high‐performance micropower sources. Rechargeable micro‐batteries (MBs) are considered the most promising candidate due to their high energy density and stable voltage output. To date, various MBs with different configurations have been designed to meet the ever‐growing high energy consumption requirements of microelectronic devices. Therefore, it is very urgent to summarize the current challenges of MBs and discuss solutions for future research. In this perspective, a comprehensive overview and insights on rechargeable MBs are carefully presented with an emphasis on the design of various configurations. The representative preparation methods and application scenarios of various MBs have been summarized. The challenges and future perspectives are also discussed to provide insights into the forward‐looking research and potential directions of this promising field.
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