Biphasic Nanoalloys-Based Trifunctional Monolith for High-Performance Flexible Zn-Air Batteries and Self-Driven Water Splitting

被引：4

作者：

Yang, Xuhuan ^{[1
]}

Mao, Haoning ^{[1
]}

Zhou, Zining ^{[2
]}

Li, Keer ^{[1
]}

Li, Chen ^{[1
]}

Ye, Qiong ^{[2
]}

Liu, Boping ^{[1
]}

Fang, Yueping ^{[1
]}

Cai, Xin ^{[1
]}

机构：

[1] South China Agr Univ, Coll Mat & Energy, Key Lab Biobased Mat & Energy, Guangdong Lab Lingnan Modern Agr,Minist Educ, Guangzhou 510642, Peoples R China

[2] Southeast Univ, Sch Chem & Chem Engn, Nanjing 211189, Peoples R China

来源：

ADVANCED FUNCTIONAL MATERIALS | 2024年 / 34卷 / 38期

基金：

中国国家自然科学基金;

关键词：

flexible zinc-air batteries; HER/OER/ORR overpotentials; multifunctional catalysis; nanoalloy electrocatalysts; overall water splitting;

D O I：

10.1002/adfm.202402933

中图分类号：

O6 [化学];

学科分类号：

0703 ;

摘要：

Sufficient integration of multiple active moieties and correlated heterostructure engineering are pivotal to optimize the reaction kinetics and the intrinsic activities of heterogeneous electrocatalysts. Herein, an integrated heterostructure of biphasic nanoalloys are constructed, encasing in in situ grown and interlaced nitrogen-doped carbon nanoflake arrays (CoFe-NiFe/NC). Well-designed CoFe-NiFe/NC owns more accessible active sites and interfacial conjugation effects, jointly accelerating the electron transfer and mass transport for multifunctional electrocatalysis. Such unconventional monolith delivers extraordinary trifunctional activities for hydrogen evolution reaction, oxygen evolution reaction (overpotential of 185 mV at 10 mA cm-2) and oxygen reduction reaction. The superior trifunctionality of CoFe-NiFe/NC is rationalized with experimental and theoretical elucidation. Results reveal that the modulated electronic synergism between the Ni, Fe-assisted Co sites and the adjacent N-bridged carbon matrix decisively favors the appropriate binding of intermediates for promoted redox kinetics. Consequently, stand-alone CoFe-NiFe/NC cathode contributes to high-performance aqueous/flexible zinc-air batteries (ZABs), exhibiting high power/specific energy and excellent cycling stability. Remarkably, CoFe-NiFe/NC-based alkaline water electrolyzer requires merely 1.51 V to reach 10 mA cm-2, and a self-driven water splitting system yields a high H2 evolution rate. This unique heterostructure monolith would open up opportunities for developing high-efficiency multifunctional catalysts and advanced energy utilization devices. An integrated heterostructure monolith of biphasic nanoalloys encasing in interlaced N-doped carbon nanoflake arrays is rationally constructed. Such unconventional catalyst delivers extraordinary hydrogen evolution reaction (HER)/oxygen evolution reaction (OER)/oxygen reduction reaction (ORR) activities due to more accessible active sites and reinforced interfacial conjugation. The crafted multifunctional catalyst demonstrates superiority for high-performance rechargeable/flexible Zn-air batteries, water electrolyzer and self-powered water splitting. image

引用

页数：14

共 50 条

[41] Metallophthalocyanine-Based Polymer-Derived Co2P Nanoparticles Anchoring on Doped Graphene as High-Efficient Trifunctional Electrocatalyst for Zn-Air Batteries and Water Splitting
Shao, Qi
Li, Yan
Cui, Xu
Li, Tianjiao
Wang, Heng-guo
Li, Yanhui
Duan, Qian
Si, Zhenjun
ACS SUSTAINABLE CHEMISTRY & ENGINEERING, 2020, 8 (16): : 6422 - 6432
[42] Heterointerface engineering of assembled CoP2 on N-modified carbon as efficient trifunctional electrocatalysts for Zn-Air batteries and overall water splitting
Yan Chen
Zhenrui Yang
Juan Wang
Yun Yang
Xuedong He
Yang Wang
Jiadong Chen
Yaqing Guo
Xin Wang
Shun Wang
Huile Jin
Nano Research, 2024, 17 : 3801 - 3809
[43] N-doped 3D hierarchical carbon from water hyacinth for high-performance Zn-air batteries
Shi, Kejian
Li, Yang
Zhang, Yanyan
Li, Xiaofei
Zhu, Zijian
Xu, Haiyu
Zheng, Lingcheng
Gao, Juan
DIAMOND AND RELATED MATERIALS, 2023, 135
[44] Heterointerface engineering of assembled CoP2 on N-modified carbon as efficient trifunctional electrocatalysts for Zn-Air batteries and overall water splitting
Chen, Yan
Yang, Zhenrui
Wang, Juan
Yang, Yun
He, Xuedong
Wang, Yang
Chen, Jiadong
Guo, Yaqing
Wang, Xin
Wang, Shun
Jin, Huile
NANO RESEARCH, 2024, 17 (05) : 3801 - 3809
[45] Alkaline Polymer Membrane-Based Ultrathin, Flexible, and High-Performance Solid-State Zn-Air Battery
Wang, Wang
Tang, Meihua
Zheng, Zhenying
Chen, Shengli
ADVANCED ENERGY MATERIALS, 2019, 9 (14)
[46] Design principles of non-noble metal catalysts for high-performance rechargeable Zn-air batteries
Liu, Pengxiang
Wang, Yaqian
Lv, Ruijun
Zhang, Guangying
Liu, Xu
Wang, Lei
ENERGY STORAGE MATERIALS, 2025, 76
[47] Trifunctional Fishbone-like PtCo/Ir Enables High-Performance Zinc-Air Batteries to Drive the Water-Splitting Catalysis
Sun, Yingjun
Huang, Bolong
Li, Yingjie
Xing, Yi
Luo, Mingchuan
Li, Na
Xia, Zhonghong
Qin, Yingnan
Su, Dong
Wang, Lei
Guo, Shaojun
CHEMISTRY OF MATERIALS, 2019, 31 (19) : 8136 - 8144
[48] Surface-enriched ultrafine Pt nanoparticles coupled with defective CoP as efficient trifunctional electrocatalyst for overall water splitting and flexible Zn-air battery
Wu, Zexing
Gao, Yuxiao
Wang, Zixuan
Xiao, Weiping
Wang, Xinping
Li, Bin
Li, Zhenjiang
Liu, Xiaobin
Ma, Tianyi
Wang, Lei
CHINESE JOURNAL OF CATALYSIS, 2023, 46 : 36 - 47
[49] Self-Powered Water-Splitting Devices by Core-Shell NiFe@N-Graphite-Based Zn-Air Batteries
Liu, Peitao
Gao, Daqiang
Xiao, Wen
Ma, Lei
Sun, Ke
Xi, Pinxian
Xue, Desheng
Wang, John
ADVANCED FUNCTIONAL MATERIALS, 2018, 28 (14)
[50] A NiCu-MoS2 electrocatalyst for pH-universal hydrogen evolution reaction and Zn-air batteries driven self-power water splitting
Kumar, Mukesh
Nagaiah, Tharamani C.
JOURNAL OF MATERIALS CHEMISTRY A, 2023, 11 (34) : 18336 - 18348

← 1 2 3 4 5 →