首页|期刊导航|Advanced Powder Materials|Structure-tailored superlattice Bi_(7)Ti_(4)NbO_(21):Coupling octahedral tilting and rotation induced high ferroelectric polarization for efficient piezo-photocatalytic CO_(2) reduction
Structure-tailored superlattice Bi_(7)Ti_(4)NbO_(21):Coupling octahedral tilting and rotation induced high ferroelectric polarization for efficient piezo-photocatalytic CO_(2) reduction
Jingren Ni Rufang Zhao Chendi Shi Yuanyuan Ji Aize Hao Aiting Xie Hongjian Yu Siew Kheng Boong Hiang Kwee Lee Chuanqiang Zhou Jie Han
Advanced Powder Materials2025,Vol.4Issue(2):P.12-21,10.
Advanced Powder Materials2025,Vol.4Issue(2):P.12-21,10.DOI:10.1016/j.apmate.2025.100265
Structure-tailored superlattice Bi_(7)Ti_(4)NbO_(21):Coupling octahedral tilting and rotation induced high ferroelectric polarization for efficient piezo-photocatalytic CO_(2) reduction
摘要
关键词
ntergrowth Bi_(7)Ti_(4)NbO_(21)nanosheets/Structural tailoring/Ferroelectric polarization/Octahedral distortion/Piezo-photocatalytic CO_(2)reduction分类
化学化工引用本文复制引用
Jingren Ni,Rufang Zhao,Chendi Shi,Yuanyuan Ji,Aize Hao,Aiting Xie,Hongjian Yu,Siew Kheng Boong,Hiang Kwee Lee,Chuanqiang Zhou,Jie Han..Structure-tailored superlattice Bi_(7)Ti_(4)NbO_(21):Coupling octahedral tilting and rotation induced high ferroelectric polarization for efficient piezo-photocatalytic CO_(2) reduction[J].Advanced Powder Materials,2025,4(2):P.12-21,10.基金项目
support from the Natural Science Foundation of Jiangsu Province(BK20220596) (BK20220596)
Innovative science and technology platform project of cooperation between Yangzhou City and Yangzhou University,China(No.YZ202026305) (No.YZ202026305)
Natural Science Foundation of China(21922202,21673202 and 22272147) (21922202,21673202 and 22272147)
the Priority Academic Program Development of Jiangsu Higher Education Institutions. ()
