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N/S-Doped Hierarchical Porous Bamboo Carbon Fibers with Ultra-Large Surface Area and Highly Exposed Active Sites for Flexible Zinc-Air Battery
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作者 Yuhang Qian Xinye Liu +8 位作者 Xiangjun Zheng Zilong Yang Yanjie Yu Fei Gao Xingmei Guo Yuanjun Liu Xuecheng Cao Ruihua Guo Junhao Zhang 《Chinese Journal of Chemistry》 SCIE CAS 2024年第21期2647-2655,共9页
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/NH3 dual-assisted pyrolysis strategy is propose... 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/NH3 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 NH3 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. 展开更多
关键词 Hierarchical porous structure bamboo carbon fibers N/S-doped catalyst Flexible Zn-air batteries Oxygen reduction reaction Oxygen evolution reaction Electrocatalysis Catalytic activity
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