16 Papers
5 Citations
Peng Jiang is an academic researcher from University of Science and Technology of China. The author has contributed to research in topics: Spintronics & Graphene. The author has an hindex of 7, co-authored 16 publications. Previous affiliations of Peng Jiang include Chinese Academy of Sciences & Trinity College, Dublin.
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Papers
Giant tunneling electroresistance in two-dimensional ferroelectric tunnel junctions with out-of-plane ferroelectric polarization
Lili Kang,Lili Kang,Lili Kang,Peng Jiang,Peng Jiang,Hua Hao,Yan-hong Zhou,Xiaohong Zheng,Lei Zhang,Zhi Zeng,Zhi Zeng +10 more
TL;DR: In this article, the authors proposed a mechanism for building 2D tunnel junctions based on the large difference between the two work functions of a 2D ferroelectric polar material with out-of-plane polarization.
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Prediction of the two-dimensional Janus ferrovalley material LaBrI
Peng Jiang,Peng Jiang,Peng Jiang,Lili Kang,Yan-Ling Li,Xiaohong Zheng,Zhi Zeng,Stefano Sanvito +7 more
TL;DR: In this paper, first-principles calculations predict a 2D Janus ferrovalley material lanthanum bromiodide (LaBrI), which is a stable ferromagnetic electride, whose magnetic moment originates mainly from the interstitial anionic electrons.
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Pure spin current generation via photogalvanic effect with spatial inversion symmetry
Xixi Tao,Xixi Tao,Xixi Tao,Peng Jiang,Peng Jiang,Hua Hao,Xiaohong Zheng,Xiaohong Zheng,Xiaohong Zheng,Lei Zhang,Zhi Zeng,Zhi Zeng +11 more
TL;DR: In this article, the authors proposed a new idea to generate pure spin current with photogalvanic effect (PGE) by designing devices with spatial inversion symmetry based on two-dimensional spin semiconducting materials.
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Realizing giant tunneling electroresistance in two-dimensional graphene/BiP ferroelectric tunnel junction
Lili Kang,Lili Kang,Peng Jiang,Peng Jiang,Ning Cao,Ning Cao,Hua Hao,Hua Hao,Xiaohong Zheng,Xiaohong Zheng,Xiaohong Zheng,Lei Zhang,Zhi Zeng,Zhi Zeng +13 more
TL;DR: Using first-principles calculations, it is demonstrated that a giant TER effect of around 623%, which is comparable to 3D FTJs, can be realized through the ferroelectric tunnel junction constructed with the 2D ferro electric materials BiP and B/N-doped graphene.
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Tuning a zigzag SiC nanoribbon as a thermal spin current generator
Peng Jiang,Peng Jiang,Xixi Tao,Xixi Tao,Hua Hao,Lingling Song,Xiaohong Zheng,Xiaohong Zheng,Lei Zhang,Zhi Zeng,Zhi Zeng +10 more
- 19 Jun 2017
TL;DR: In this paper, the spin-dependent Seebeck effect was investigated in a zigzag SiC nanoribbon device under a thermal gradient using a first-principles technique.
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