Minghui Pei
Beijing Normal University
5 Papers
14 Citations
Minghui Pei is an academic researcher from Beijing Normal University. The author has contributed to research in topics: Ferroelectricity & Thin film. The author has an hindex of 2, co-authored 4 publications.
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Papers
Bifunctional Photoelectrode Driven by Charged Domain Walls in Ferroelectric Bi2WO6
Rizwan Ullah,Minghui Pei,Junsheng Wu,Yu Tian,Yu Tian,Zhenao Gu,Qinghua Zhang,Chuangye Song,Yuben Yang,Munir Ahmad,Johar Zeb,Fazal Qayyum,Yanyu Liu,Xiaoqiang An,Lin Gu,Xueyun Wang,Jinxing Zhang +16 more
- 06 May 2020
TL;DR: In this paper, photoelectrochemical technology provides a promising way to solve the emerging energy crisis, yet it still faces obstacles like weak charge transfer and separation of traditional photo-electrodes.
22
Large‐Area Printing of Ferroelectric Surface and Super‐Domain for Solar Water Splitting
Yu Tian,Aiji Wang,Yaqing Wei,Minghui Pei,Rongrong Cao,Zhenao Gu,Qichao Yuan,Yiwen Hu,Jing Wang,Kunhui Liu,Dashan Shang,Jiebin Niu,Xiaoqiang An,Run Long,Jinxing Zhang +14 more
TL;DR: In this article , the up-shift of band edge positions at the ferroelectric surface enables and enhances the holes and electrons transfer through the hydroxyl active sites, leading to enhanced oxygen or hydrogen evolutions.
22
Modulation of the resistive switching of BiFO3 thin films through electrical stressing
Ying Yang,Hui Zhu,Daping Chu,Kai Liu,Yuelin Zhang,Minghui Pei,Shiwei Feng,Lei Jin,Chen Wang,Jie Liu,Li Rui,Si Wang +11 more
TL;DR: In this paper, the resistive switching of Au/BiFeO3/SrRuO3 samples was shown to be controllable by using a thermal treatment and an electrical stressing method.
Enhancement of the switchable diode effect by the surface hydroxylation of ferroelectric oxide thin films
Tong Li,Tong Li,Ying Yang,Yuelin Zhang,Minghui Pei,Yuben Yang,Yu Tian,Junsheng Wu,Yanwen Zhou,Hui Zhu +9 more
TL;DR: In this paper, the diode behavior of ferroelectric materials was shown to be enhanced using aqueous solution treatment of their surface, which can be associated with the polarization direction and the movement and redistribution of oxygen vacancies within the thin films.
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Large-area printing of ferroelectric surface and super-domains for efficient solar water splitting
Yu Tian,Yaqing Wei,Minghui Pei,Rongrong Cao,Zhenao Gu,Jing Wang,Kunhui Liu,Dashan Shang,Jiebin Niu,Xiaoqiang An,Run Long,Jinxing Zhang +11 more
TL;DR: In this article, the up-shift of band edge positions at this surface enables and enhances the interfacial holes and electrons transfer through the hydroxyl-active-sites, leading to simultaneously enhanced oxygen and hydrogen evolutions.
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