H
Hao Huang
Researcher at University of Science and Technology of China
Publications - 40
Citations - 1637
Hao Huang is an academic researcher from University of Science and Technology of China. The author has contributed to research in topics: Catalysis & Chemistry. The author has an hindex of 14, co-authored 26 publications receiving 933 citations. Previous affiliations of Hao Huang include King Abdullah University of Science and Technology & Kaohsiung Medical University.
Papers
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Recent Progress on Electrocatalyst and Photocatalyst Design for Nitrogen Reduction
TL;DR: In this article, a review of the development of advanced catalytic systems for ammonia production through N2 fixation is presented, and the remaining challenges and future opportunities in this field are outlined, leveraging the existing understanding on structure-property relationships.
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O-, N-Atoms-Coordinated Mn Cofactors within a Graphene Framework as Bioinspired Oxygen Reduction Reaction Electrocatalysts.
Yang Yang,Kaitian Mao,Shiqi Gao,Hao Huang,Guoliang Xia,Zhiyu Lin,Peng Jiang,Changlai Wang,Hui Wang,Qianwang Chen,Qianwang Chen +10 more
TL;DR: Graphene frameworks containing the Mn-N3 O1 cofactor demonstrate the fastest ORR kinetics due to the tuning of the d electronic states to a reasonable state, and theoretical calculations reveal that the intrinsic catalytic activity of metal Mn can be significantly improved via changing local geometry of nearest coordinated O and N atoms.
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Mn-Doped RuO2 Nanocrystals as Highly Active Electrocatalysts for Enhanced Oxygen Evolution in Acidic Media
Shi Chen,Hao Huang,Peng Jiang,Kang Yang,Jiefeng Diao,Shipeng Gong,Shuai Liu,Minxue Huang,Hui Wang,Qianwang Chen,Qianwang Chen +10 more
TL;DR: In this article, RuO2 is a benchmark acidic oxygen evolution reaction (OER) catalyst, but its wide applications are always restricted by slow dynamics and limited durability, and it is not suitable for many applications.
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Unraveling Surface Plasmon Decay in Core-Shell Nanostructures toward Broadband Light-Driven Catalytic Organic Synthesis.
Hao Huang,Lei Zhang,Zhiheng Lv,Ran Long,Chao Zhang,Yue Lin,Kecheng Wei,Chengming Wang,Lu Chen,Zhi-Yuan Li,Zhi-Yuan Li,Qun Zhang,Yi Luo,Yujie Xiong +13 more
TL;DR: It is reported that in a model system of bimetallic Au-Pd core-shell nanostructures the two effects can be disentangled through tailoring the shell thickness at atomic-level precision, establishing a paradigmatic guidance toward designing plasmonic-catalytic nanomaterials for enhanced solar-to-chemical energy conversion.
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Plasmonic nanostructures in solar energy conversion
TL;DR: In this paper, the fundamental mechanisms, including hot electron injection, local electromagnetic field enhancement and resonant energy transfer, which are responsible for both plasmonics-enhanced photocatalysis and photovoltaics are discussed.