化学
锌
兴奋剂
电池(电)
碳纤维
多孔性
竹子
封面(代数)
化学工程
纳米技术
光电子学
复合材料
有机化学
复合数
工程类
功率(物理)
物理
材料科学
机械工程
量子力学
作者
Yuhang Qian,Xinye Liu,Xiang‐Jun Zheng,Zilong Yang,Yanjie Yu,Fei Gao,Xingmei Guo,Yuanjun Liu,Xuecheng Cao,Ruihua Guo,Junhao Zhang
标识
DOI:10.1002/cjoc.202400479
摘要
Comprehensive Summary Facile mass transport channel and accessible active sites are crucial for binder‐free air electrode catalysts in rechargeable flexible zinc‐air battery (ZAB). Herein, a ZnS/NH 3 dual‐assisted pyrolysis strategy is proposed to prepare N/S‐doped hierarchical porous bamboo carbon cloth (HP‐NS‐BCC) as binder‐free air electrode catalyst for ZAB. BCC fabric with abundant micropores is firstly used as flexible carbon support to facilitate the heteroatom‐doping and construct the hierarchical porous structure. ZnS nanospheres and NH 3 activization together facilitate the electronic modulation of carbon matrix by N/S‐doping and optimize the macro/meso/micropores structure of carbon fibers. Benefiting from the highly‐exposed N/S‐induced sites with enhanced intrinsic activity, the optimized mass transport of biocarbon fibers, as well as the ultra‐large specific surface area of 2436.1 m 2 ·g –1 , the resultant HP‐NS‐BCC catalyst exhibits improved kinetics for oxygen reduction/evolution reaction. When applied to rechargeable aqueous ZABs, it achieves a significant peak power density of 249.1 mW·cm −2 . As binder‐free air electrode catalyst, the flexible ZAB also displays stable cycling over 500 cycles with a minimal voltage gap of 0.42 V, showcasing promising applications in flexible electronic devices.
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