Feng Jiang
Xiamen University
8 Papers
7 Citations
Feng Jiang is an academic researcher from Xiamen University. The author has contributed to research in topics: Molecular electronics & Conductance. The author has an hindex of 4, co-authored 8 publications.
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Papers
Switching of Charge Transport Pathways via Delocalization Changes in Single-Molecule Metallacycles Junctions.
Ruihao Li,Zhengyu Lu,Yuanting Cai,Feng Jiang,Chun Tang,Zhixin Chen,Jueting Zheng,Jiuchan Pi,Rui Zhang,Junyang Liu,Zhao-Bin Chen,Yang Yang,Jia Shi,Wenjing Hong,Haiping Xia +14 more
TL;DR: X-ray diffraction and UV-vis absorption spectroscopy suggested that the attached phosphonium group makes metallacycles more delocalized, which shortened the preferred charge transport pathway and significantly enhanced the single-molecule conductance.
58
Electron-Catalyzed Dehydrogenation in a Single-Molecule Junction
Hongliang Chen,Hongliang Chen,Feng Jiang,Chen Hu,Yang Jiao,Su Chen,Yunyan Qiu,Ping Zhou,Long Zhang,Kang Cai,Bo Song,Xiao-Yang Chen,Xingang Zhao,Michael R. Wasielewski,Hong Guo,Wenjing Hong,J. Fraser Stoddart +16 more
TL;DR: In this article, it was shown that linear and cyclic molecules with a saturated bipyridinium-ethane backbone exhibit a similar conductance signature when compared to molecules with conjugated bipyrithinium -ethene backbones.
36
Room-temperature quantum interference in single perovskite quantum dot junctions.
Haining Zheng,S. R. Hou,Chenguang Xin,Qingqing Wu,Feng Jiang,Zhibing Tan,Xin Zhou,Luchun Lin,Wenxiang He,Qingmin Li,Jueting Zheng,Longyi Zhang,Junyang Liu,Yang Yang,Jia Shi,Xiaodan Zhang,Zhao Ying,Yuelong Li,Colin J. Lambert,Wenjing Hong +19 more
TL;DR: The atomic origin of the conductance features in the single perovskite quantum dot junctions are revealed, and direct evidence of the room-temperature quantum interference effects is presented.
Promotion and suppression of single-molecule conductance by quantum interference in macrocyclic circuits
Hongliang Chen,Hongliang Chen,S. R. Hou,Qingqing Wu,Feng Jiang,Ping Zhou,Long Zhang,Yang Jiao,Bo Song,Qing-Hui Guo,Qing-Hui Guo,Xiao-Yang Chen,Wenjing Hong,Colin J. Lambert,J. Fraser Stoddart +14 more
- 15 Sep 2021
TL;DR: In this paper, it was shown that electron transport in tetracationic cyclophane circuits is mediated by quantum interference between channels formed from two lowest unoccupied molecular orbitals (LUMOs), while their highest occupied molecular orbits (HOMOs) play no significant role.