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Author: Zhu, Feng × Type: article × Publisher: Amsterdam : Elsevier × WGL Institute: IFWD ×

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Now showing 1 - 3 of 3
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    Nano energy for miniaturized systems
    (Amsterdam : Elsevier, 2021) Zhu, Minshen; Zhu, Feng; Schmidt, Oliver G.
    Skin mountable electronic devices are in a high-speed development at the crossroads of materials science, electronics, and computer science. Sophisticated functions, such as sensing, actuating, and computing, are integrated into a soft electronic device that can be firmly mounted to any place of human body. These advanced electronic devices are capable of yielding abilities for us whenever they are needed and even expanding our abilities beyond their natural limitations. Despite the great promise of skin mounted electronic devices, they still lack satisfactory power supplies that are safe and continuous. This Perspective discusses the prospects of the development of energy storage devices for the next generation skin mountable electronic devices based on their unique requirements on flexibility and miniaturized size.
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    Editorial for a special issue “Nano energy materials and devices for miniaturized electronics and smart systems”
    (Amsterdam : Elsevier, 2021) Zhu, Feng; Schmidt, Oliver G.
    [No abstract available]
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    Recent developments of stamped planar micro-supercapacitors: Materials, fabrication and perspectives
    (Amsterdam : Elsevier, 2021) Li, Fei; Li, Yang; Qu, Jiang; Wang, Jinhui; Bandari, Vineeth Kumar; Zhu, Feng; Schmidt, Oliver G.
    The rapid development of wearable and portable electronics has dramatically increased the application for miniaturized energy storage components. Stamping micro-supercapacitors (MSCs) with planar interdigital configurations are considered as a promising candidate to meet the requirements. In this review, recent progress of the different stamping materials and various stamping technologies are first discussed. The merits of each material, manufacturing process of each stamping method and the properties of stamping MSCs are scrutinized, respectively. Further insights on technical difficulties and scientific challenges are finally demonstrated, including the limited thickness of printed electrodes, poor overlay accuracy and printing resolution.