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How to Pack a Punch – Why 3D Batteries are Essential
Israel Journal of Chemistry ( IF 2.3 ) Pub Date : 2021-02-25 , DOI: 10.1002/ijch.202100001 Yonatan Horowitz 1, 2 , Ela Strauss 3 , Emanuel Peled 2 , Diana Golodnitsky 2
Israel Journal of Chemistry ( IF 2.3 ) Pub Date : 2021-02-25 , DOI: 10.1002/ijch.202100001 Yonatan Horowitz 1, 2 , Ela Strauss 3 , Emanuel Peled 2 , Diana Golodnitsky 2
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The miniaturization of implantable medical devices, remote microsensors and transmitters, “smart” cards, and Internet of Things (IoT) systems is impeded by the absence of high‐performance micro‐size power sources. Insufficient areal energy density from thin‐film planar microbatteries has inspired a search for three‐dimensional microbatteries (3DMB) with the use of low‐cost and efficient micro‐ and nano‐scale materials and techniques. In our short review, we present our outlook on the state‐of‐the‐art development of advanced 3D‐microbattery designs and methods of the fabrication of electrode materials. Special attention is given to the 3D‐printing approach, which holds many opportunities for the mass production of microbatteries and their direct integration with electronic devices.
中文翻译:
如何包装打孔机-为什么3D电池必不可少
由于缺乏高性能的微型电源,阻碍了植入式医疗设备,远程微传感器和变送器,“智能”卡以及物联网(IoT)系统的小型化。薄膜平面微电池的平面能量密度不足,促使人们通过使用低成本,高效的微米和纳米级材料和技术来寻求三维微电池(3DMB)。在简短的评论中,我们对先进的3D微型电池设计和电极材料的制造方法的最新发展提出了展望。特别关注3D打印方法,该方法为微型电池的批量生产及其与电子设备的直接集成提供了许多机会。
更新日期:2021-03-08
中文翻译:
如何包装打孔机-为什么3D电池必不可少
由于缺乏高性能的微型电源,阻碍了植入式医疗设备,远程微传感器和变送器,“智能”卡以及物联网(IoT)系统的小型化。薄膜平面微电池的平面能量密度不足,促使人们通过使用低成本,高效的微米和纳米级材料和技术来寻求三维微电池(3DMB)。在简短的评论中,我们对先进的3D微型电池设计和电极材料的制造方法的最新发展提出了展望。特别关注3D打印方法,该方法为微型电池的批量生产及其与电子设备的直接集成提供了许多机会。
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