Wearable electronic technology is emerging as the next huge market opportunity after smartphones. Its market revenue is growing at a rate of ~ 25% to reach ~ USD 80 billion by 2025. Flexible lithium-ion (Li-ion) batteries with high electrochemical performance and high mechanical durability, which can be integrated into wearable forms, are highly desired to power up the various wearable electronics. Till now the only commercialized flexible Li-ion battery developed by Panasonic delivers a relatively low energy density of ~100 Wh/kg. Thus this project aims to develop highly flexible Li-ion batteries with energy densities of 150-200 Wh/kg which are comparable to their rigid counterparts. Lightweight metallic/carbon textiles with high conductivity and mechanical flexibility will be prepared and used as the current collectors. Active materials with high capacity (lithium cobalt oxide, ternary metal lithium oxide, and sulfur for cathode; graphite and lithium for anode) will be integrated with the conductive textiles to construct mechanically robust composite electrodes. The device performance will be optimized by taking electrode pairs with high potential windows and suitable electrolyte systems, to improve the energy density of resultant flexible batteries. The success of this project shall significantly impact the energy storage technology for wearable electronics.
|Project No. (ITC)||ITP/085/17TP|
|Project Co-ordinator||Prof. ZHENG Zijian|
|Research Institute||The Hong Kong Polytechnic University|
|ITF Amount||HK$ 5,395,000|
|Start Date DD/MM/YY||2018-03-01|
|Completion Date DD/MM/YY||2020-02-29|
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