Li Huang
Chinese Academy of Sciences
327 Papers
772 Citations
Li Huang is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Chemistry & Medicine. The author has an hindex of 41, co-authored 233 publications. Previous affiliations of Li Huang include South University of Science and Technology of China & University of Fribourg.
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Papers
Structure engineering: extending the length of azaacene derivatives through quinone bridges
Zilong Wang,Zongrui Wang,Yecheng Zhou,Pei-Yang Gu,Guangfeng Liu,Kexiang Zhao,Lina Nie,Qingsheng Zeng,Jing Zhang,Yongxin Li,Rakesh Ganguly,Naoki Aratani,Li Huang,Zheng Liu,Hiroko Yamada,Wenping Hu,Qichun Zhang +16 more
TL;DR: In this paper, two quinone-fused azaacenes Hex-CO and Hept-CO were investigated using a novel palladium-catalyzed coupling reaction.
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•Posted Content
Nanosized Monoatomic Palladium Metallic Glass
Dong Sheng He,Yi Huang,Benjamin D. Myers,Dieter Isheim,Xinyu Fan,Yunsheng Deng,Lin Xie,Shaobo Han,Yang Qiu,Li Huang,Vinayak P. Dravid,Jiaqing He +11 more
TL;DR: In this paper, a facile synthetic strategy for creating mono-atomic palladium metallic glass nanoparticles with a purity of 99.35 +/- 0.23 at% from palladium-silicon liquid droplets using a cooling rate below 1000 K/s.
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Unveiling the Medium-Range Order in Glass Models and Its Role in Glass Formation
Xinyu Fan,Xinyu Fan,Yang Sun,Yang Sun,Cai-Zhuang Wang,Kai-Ming Ho,Michael S. Altman,Li Huang +7 more
TL;DR: In this paper, the authors show that the short-range order descriptor offers little help in explaining the glass formability and stability; instead, it is the formation of mediumrange order that stabilizes the glass against crystallization by suppressing the atomic rearrangement and compositional change.
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Low-temperature growth of large-scale, single-crystalline graphene on Ir(111)
Hui Guo,Hui Chen,Yande Que,Qi Zheng,Yu-Yang Zhang,Lihong Bao,Li Huang,Yeliang Wang,Shixuan Du,Hong-Jun Gao +9 more
TL;DR: In this article, a large-scale, single-crystalline graphene was grown on Ir(111) substrate at a temperature as low as 800 K using an oxygen-etching assisted epitaxial growth method.
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Thermally activated magnetization back-hopping based true random number generator in nano-ring magnetic tunnel junctions
Jianying Qin,Xiao Wang,Tao Qu,Caihua Wan,Li Huang,Chenyang Guo,Tian Yu,Hongxiang Wei,Xiufeng Han +8 more
TL;DR: In this article, a true random number generator based on the magnetization backhopping process in nano-ring magnetic tunnel junctions is demonstrated, and the impact of environmental temperature (T) and current pulse width (τ) on back-hopping is investigated statistically by experiments, micromagnetic simulations, and theoretical analysis.
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