Triphenylphosphine-Assisted Exsolution Engineering on Ruddlesden-Popper Perovskites for Promoting Oxygen Evolution

被引:0
|
作者
Juan Bai [1 ,2 ]
Jing Shang [3 ]
Jun Mei [1 ,2 ]
Dongchen Qi [1 ,2 ]
Ting Liao [2 ,4 ]
Ziqi Sun [1 ,2 ]
机构
[1] School of Chemistry and Physics, Queensland University of Technology
[2] Centre for Materials Science, Queensland University of Technology
[3] School of Materials Science and Engineering, Shaanxi University of Science and Technology
[4] School of Mechanical Medical and Process Engineering, Queensland University of
来源
Energy&EnvironmentalMaterials | 2024年 / 7卷 / 04期
关键词
D O I
暂无
中图分类号
O643.36 [催化剂];
学科分类号
摘要
<正>Metal exsolution engineering has been regarded as a promising strategy for activating intrinsically inert perovskite oxide catalysts toward efficient oxygen evolution reaction.Traditional metal exsolution processes on perovskites are often achieved by using the reducing hydrogen gas; however,this is not effective for the relatively stable phase,such as Ruddlesden-Popper perovskite oxides.
引用
收藏
页码:433 / 441
页数:9
相关论文
共 50 条
  • [21] Phonon-Assisted Nonradiative Recombination Tuned by Organic Cations in Ruddlesden-Popper Hybrid Perovskites
    Zhang, Fan
    Wang, Xiaolong
    Gao, Weiwei
    Zhao, Jijun
    PHYSICAL REVIEW APPLIED, 2022, 17 (06):
  • [22] Intralayer A-Site Compositional Engineering of Ruddlesden-Popper Perovskites for Thermostable and Efficient Solar Cells
    Jiang, Youyu
    He, Xinyi
    Liu, Tiefeng
    Zhao, Nan
    Qin, Minchao
    Liu, Junxue
    Jiang, Fangyuan
    Qin, Fei
    Sun, Lulu
    Lu, Xinhui
    Jin, Shengye
    Xiao, Zewen
    Kamiya, Toshio
    Zhou, Yinhua
    ACS ENERGY LETTERS, 2019, 4 (06) : 1216 - 1224
  • [23] Largely Enhanced Oxygen Evolution Performance in a Ferromagnetic Ruddlesden-Popper Phase Cobaltate
    Meng, Ziang
    Qi, Yacong
    Qin, Peixin
    Zhou, Xiaorong
    Wang, Xiaoning
    Chen, Hongyu
    Liu, Li
    Zhao, Guojian
    Duan, Zhiyuan
    Liu, Jinghua
    Zhang, Qinghua
    Tang, Peizhe
    Liu, Zhiqi
    NANO LETTERS, 2025,
  • [24] Mechanism of Crystal Formation in Ruddlesden-Popper Sn-Based Perovskites
    Dong, Jingjin
    Shao, Shuyan
    Kahmann, Simon
    Rommens, Alexander J.
    Hermida-Merino, Daniel
    ten Brink, Gert H.
    Loi, Maria A.
    Portale, Giuseppe
    ADVANCED FUNCTIONAL MATERIALS, 2020, 30 (24)
  • [25] Design of Ruddlesden-Popper Oxides with Optimal Surface Oxygen Exchange Properties for Oxygen Reduction and Evolution
    Gu, Xiang-Kui
    Nikolla, Eranda
    ACS CATALYSIS, 2017, 7 (09): : 5912 - 5920
  • [26] A-site cation engineering enables oriented Ruddlesden-Popper perovskites towards efficient solar cells
    Rui Liu
    Yue Yu
    Chang Liu
    Hua Yang
    XiaoLei Shi
    Hua Yu
    ZhiGang Chen
    Science China(Chemistry), 2022, (12) : 2468 - 2475
  • [27] Steric Effects in Ruddlesden-Popper Blue Perovskites for High Quantum Efficiency
    Lee, Ilgeum
    Allam, Omar
    Kim, Jiweon
    Dou, Yixuan
    Ahn, Hyungju
    Proppe, Andrew
    Dong, Yitong
    Ma, Dongxin
    Quan, Li Na
    Sargent, Edward H.
    Jang, Seung Soon
    Kim, Dong Ha
    ADVANCED OPTICAL MATERIALS, 2023, 11 (10)
  • [28] 2D Ruddlesden-Popper Perovskites Microring Laser Array
    Zhang, Haihua
    Liao, Qing
    Wu, Yishi
    Zhang, Zhaoyi
    Gao, Qinggang
    Liu, Peng
    Li, Meili
    Yao, Jiannian
    Fu, Hongbing
    ADVANCED MATERIALS, 2018, 30 (15)
  • [29] Autonomous Design of Photoferroic Ruddlesden-Popper Perovskites for Water Splitting Devices
    Ludvigsen, Alexandra Craft
    Lan, Zhenyun
    Castelli, Ivano E.
    MATERIALS, 2022, 15 (01)
  • [30] Review on Ruddlesden-Popper perovskites as cathode for solid oxide fuel cells
    Ding, Peipei
    Li, Wenlu
    Zhao, Hanwen
    Wu, Congcong
    Zhao, Li
    Dong, Binghai
    Wang, Shimin
    JOURNAL OF PHYSICS-MATERIALS, 2021, 4 (02):
12345