V. Venkatesh, Qi Yang, Jingwen Zhang, J. Pikul, M. Allen
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引用次数: 1
摘要
现代设备的小型化,包括高度分布式物联网节点的出现,已经产生了对能源系统小型化的需求。空气电池可以成为这种小型设备的有吸引力的电源。研究了用热蒸发法制备锌空气电池用薄锌阳极。热蒸发法制备的锌阳极纯度高,密度约96%,表面光滑(粗糙度小于0.1微米)。阳极的厚度可达8微米。用轮廓术和扫描电镜对蒸发锌膜进行了结构表征。用能量色散x射线光谱法测定蒸发膜的纯度。在10 mA (5C倍率)放电条件下,蒸发法制备的薄锌阳极的利用率为96.5%。比容量为791mAh/g,接近锌空气电池的理论极限(820mAh/g)。蒸发产生的阳极提供了制造高能量密度薄膜微电池的潜力。
Fabrication and Characterization of Evaporated ZINC Anodes for Small-Scale ZINC-Air Batteries
Miniaturization of modern devices, including the advent of highly distributed Internet of Things nodes, has created a need for miniaturization in energy systems. Air batteries can be an attractive power source for such small-scale devices. This paper investigates fabrication of thin zinc anodes for zinc-air batteries using a thermal evaporation technique. Zinc anodes produced by thermal evaporation are found to be of high purity, approximately 96% dense, and smooth (roughness less than 0.1 micron). Anodes up to 8 microns in thickness are demonstrated. The structural characterization of the evaporated zinc films was performed by profilometry and scanning electron microscopy. The purity of the evaporated film was determined by the energy dispersive X-ray spectroscopy. Thin zinc anodes fabricated by evaporation exhibited utilization of 96.5% at 10 mA (5C rate) discharge. Specific capacity was 791mAh/g, approaching the theoretical limit of zinc-air batteries (820mAh/g). The anodes produced by evaporation offer the potential to fabricate high energy density thin film microbatteries.
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