Suppressing corrosion and hydrogen gas evolution in aluminum-air batteries via conductive nanocomposites

被引:16
|
作者
Deyab, M. A. [1 ]
Mohsen, Q. [2 ]
机构
[1] Egyptian Petr Res Inst EPRI, Cairo, Egypt
[2] Taif Univ, Dept Chem, Coll Sci, At Taif, Saudi Arabia
来源
JOURNAL OF POWER SOURCES | 2021年 / 506卷
关键词
Al-air battery; Conductive nanocomposites; Hydrogen gas; Polyaniline; Carbon nanofibers; AA5052 ALLOY ANODE; PERFORMANCE EVALUATION; ALKALINE ELECTROLYTE; COMPLEX ADDITIVES; BEHAVIOR; INHIBITOR; PROTECTION; COATINGS;
D O I
10.1016/j.jpowsour.2021.230171
中图分类号
O64 [物理化学(理论化学)、化学物理学];
学科分类号
070304 ; 081704 ;
摘要
Alternative energy sources such as Al-air batteries appear to be promising. However, the formation of a passive layer and the evolution of hydrogen gas during battery operation reduce capacity retention and cyclability. To address these issues, we used conductive nanocomposites (PANI@CNF) based on polyaniline (PANI) and carbon nanofibers to coat the Al electrode. The findings show that the PANI@CNF nanocomposites are able to reduce corrosion in Al electrode and prevent 92% hydrogen gas evolution. A battery with Al/PANI@0.8CNF electrode produces a high capacity density (2730 mAh g(-1)) and a high energy density (4067 Wh kg(-1)) at a current density of 10 mA cm(-2). This study proposes a new strategy for improving the performance of Al-air batteries based on conductive nanocomposites.
引用
收藏
页数:6
相关论文
共 50 条
  • [31] Hydrogen-bonds reconstructing electrolyte enabling low-temperature aluminum-air batteries
    Lv, Chaonan
    Zhu, Yuanxin
    Li, Yixin
    Zhang, Yuxin
    Kuang, Jialin
    Tang, Yougen
    Li, Huanhuan
    Wang, Haiyan
    ENERGY STORAGE MATERIALS, 2023, 59
  • [32] Inhibition of Hydrogen Evolution by a Bifunctional Membrane between Anode and Electrolyte of Aluminum-Air Battery
    Zuo, Yuxin
    Yu, Ying
    Shi, Haoqin
    Wang, Jiale
    Zuo, Chuncheng
    Dong, Xiaowei
    MEMBRANES, 2022, 12 (04)
  • [33] Aluminum-air batteries: current advances and promises with future directions
    Rani, Bharti
    Yadav, Jitendra Kumar
    Saini, Priyanka
    Pandey, Anant Prakash
    Dixit, Ambesh
    RSC ADVANCES, 2024, 14 (25) : 17628 - 17663
  • [34] DEVELOPMENT OF AN ELECTROLYTE MANAGEMENT-SYSTEM FOR ALUMINUM-AIR BATTERIES
    OCALLAGHAN, WB
    KNOWLES, SR
    JOURNAL OF THE ELECTROCHEMICAL SOCIETY, 1985, 132 (08) : C336 - C336
  • [35] Mitigating anodic corrosion in aluminum-air batteries: Effects of alkali metal cation size on electrochemical performance
    Chung, Yeonwoo
    Lee, Sangyup
    Yoon, Sungjae
    Choi, Weon-Kyung
    Jeong, Soon-Ki
    APPLIED SURFACE SCIENCE, 2025, 681
  • [36] Challenges and Strategies of Aluminum Anodes for High-Performance Aluminum-Air Batteries
    Zhang, Yuxin
    Lv, Chaonan
    Zhu, Yuanxin
    Kuang, Jialin
    Wang, Haiyan
    Li, Yixin
    Tang, Yougen
    SMALL METHODS, 2024, 8 (05)
  • [37] Effect of cerium dioxide on the anode performance of aluminum-air batteries
    Wu, Ting
    Zhao, Tianyu
    Xie, Gang
    Shen, Qingfeng
    Yu, Xiaohua
    Zhu, Yanli
    MATERIALS LETTERS, 2024, 362
  • [38] Effect of gadolinium trioxide on anode performance of aluminum-air batteries
    Yiming Zhu
    Tianyu Zhao
    Xiaohua Yu
    Yanli Zhu
    Qingfeng Shen
    Rongxing Li
    Gang Xie
    Ionics, 2023, 29 : 4723 - 4731
  • [39] The Study of Industrial Aluminum Alloy as Anodes for Aluminum-Air Batteries in Alkaline Electrolytes
    Fan, Liang
    Lu, Huimin
    Leng, Jing
    Sun, Zegao
    Chen, Chunbo
    JOURNAL OF THE ELECTROCHEMICAL SOCIETY, 2016, 163 (02) : A8 - A12
  • [40] The effect of crystal orientation on the aluminum anodes of the aluminum-air batteries in alkaline electrolytes
    Fan, Liang
    Lu, Huimin
    Leng, Jing
    Sun, Zegao
    Chen, Chunbo
    JOURNAL OF POWER SOURCES, 2015, 299 : 66 - 69
12345