Google Scholar: https://scholar.google.com/citations?user=mjCiQJYAAAAJ&hl=zh-CN
Full Publications (*Corresponding Author, †Co-first Author)
2024
[26] Hao Huang†, Karthik Peramaiah†, and Kuo-Wei Huang*, "Rethinking Nitrate Reduction: Redirecting Electrochemical Efforts from Ammonia to Nitrogen for Realistic Environmental Impact." Energy Environ. Sci. 17, 2682-2685 (2024).
[25] Maolin Zhang†, Zedong Zhang†, Shaolong Zhang†, Zechao Zhuang, Kepeng Song*, Karthik Peramaiah, Moyu Yi, Hao Huang*, and Dingsheng Wang, "Efficient Electrochemical Nitrate Reduction to Ammonia Driven by a Few Nanometer-Confined Built-in Electric Field." ACS Catalysis 14, 10437-10446 (2024).
[24] Qiaoxi Liu†, Wenjie Xu†, Hao Huang†, Hongwei Shou†, Jingxiang Low, Yitao Dai, Wanbing Gong, Youyou Li, Delong Duan, Wenqing Zhang, Yawen Jiang, Guikai Zhang, Dengfeng Cao, Kecheng Wei, Ran Long*, Shuangming Chen, Li Song, and Yujie Xiong*, "Spectroscopic Visualization of Reversible Hydrogen Spillover between Palladium and Metal-organic Frameworks towards Catalytic Semihydrogenation." Nat. Commun. 15, 2562 (2024).
[23] Karthik Peramaiah†*, Purushothaman Varadhan†, Vinoth Ramalingam†, Bilawal Khan, Pradip Kumar Das, Hao Huang, Hui-Chun Fu, Xiulin Yang, Vincent Tung, Kuo-Wei Huang*, and Jr-Hau He*, "Unassisted Photoelectrochemical CO2 Reduction by Employing III-V Photoelectrode with 15% Solar-to-Fuel Efficiency." Carbon Energy accepted (2024).
[22] Bilawal Khan, M. Bilal Faheem, Karthik Peramaiah, Jinlan Nie, Hao Huang, Zhongxiao Li, Chen Liu, Kuo-Wei Huang, and Jr-Hau He*, "Unassisted Photoelectrochemical CO2-to-liquid Fuel Splitting over 12% Solar Conversion Efficiency." Nat. Commun. 15, 6990 (2024).
[21] Delong Han, Li Yang, Hao Huang, Priyanka Chakraborty, Shashikant U. Dighe, and Kuo-Wei Huang*, "Combinations of Electron and Proton Donors in Transition-Metal Complex Mediated Nitrogen Reduction Reactions." Sci. China-Chem. 1-19 (2024).
2023
[20] Hao Huang, Dharmaraj Periyanagounder, Cailing Chen, Zhongxiao Li, Qiong Lei, Yu Han, Kuo-Wei Huang*, and Jr-Hau He*, "Artificial Leaf for Solar-driven Ammonia Conversion at Milligram-scale Using Triple Junction III-V Photoelectrode." Adv. Sci. 2205808 (2023).
[19] Hao Huang†, Zhen Li†, Zhongxiao Li, Bilawal Khan, Kuo-Wei Huang*, Zhiping Lai*, and Jr-Hau He*, "Photoelectrochemical Lithium Extraction." Nano Energy 115, 108683 (2023).
[18] Maolin Zhang†, Kepeng Song†, Chen Liu, Zedong Zhang, Hao Huang*, and Jialei Liu*, "Electron-rich Au nanocrystals/Co3O4 interface for enhanced electrochemical nitrate reduction to ammonia." J. Colloid Interface Sci. 650, 193-202 (2023).
[17] Zhongxiao Li†, Zhen Li†, Hao Huang†, Yunduo Yao, Bilawal Khan, Ye Zhu, Kuo-Wei Huang*, Zhiping Lai*, and Jr-Hau He*, "Green lithium: photoelectrochemical extraction." PhotoniX 4, 23 (2023).
[16] Delong Han, Priyanka Chakraborty, Mei-Hui Huang, Li Yang, Hao Huang, Theo P. Concalves, Abdul-Hamid Emwas, Zhiping Lai, Jr-Hau He, Aleksander Shkurenko, Mohamed Eddaoudi, and Kuo-Wei Huang*, "Nitrogen Reduction to Ammonia by a Phosphorus-Nitrogen PN3P-Mo(V) Nitride Complex: Significant Enhancement via Ligand Postmodification." CCS Chemistry 5, 616-623 (2023).
[15] Delong Han†, Priyanka Chakraborty†, Li Yang, Hao Huang, and Kuo-Wei Huang*, "Alkylation of an N2-Derived PN3P Mo(V) Nitride Complex." Asian J. Org. Chem. e202300245 (2023).
2022
[14] Hao Huang, Qiaoxi Liu, Qingpeng Cheng, Maolin Zhang, and Jialei Liu*, "Incorporating Pd into Cu-Coordinated Metal-Organic Frameworks to Promote N2 Electrochemical Reduction into Ammonia." ChemCatChem. e202201114 (2022).
2021
[13] Maolin Zhang†, Zedong Zhang†, Zhenghang Zhao†, Hao Huang, Dalaver H. Anjum, Dingsheng Wang, Jr-Hau He*, and Kuo-Wei Huang*, "Tunable selectivity for electrochemical CO2 reduction by bimetallic Cu-Sn catalysts: elucidating the roles of Cu and Sn." ACS Catalysis 11, 11103-11108 (2021).
2020
[12] Nuha Alhebshi, Hao Huang, Rokiya Ghandour, Nada K Alghamdi, Ohoud Alharbi, Shahad Aljurban, Jr-Hau He, and Hala Al-Jawhari*, "Green Synthesized CuxO@Cu Nanocomposites on a Cu Mesh with Dual Catalytic Functions for Dye Degradation and Hydrogen Evolution." J. Alloys Compd. 848, 156284 (2020).
2019
[11] Mengqiao Li†, Hao Huang†, Jingxiang Low, Chao Gao, Ran Long*, and Yujie Xiong*, "Recent Progress on Electrocatalyst and Photocatalyst Design for Nitrogen Reduction." Small Methods 3, 1800388 (2019).
[10] Yang You†, Hao Huang†, Keke Mao†, Song Xia, Di Wu, Canyu Hu, Chao Gao, Panyiming Liu, Ran Long*, Xiaojun Wu, and Yujie Xiong*, "Tandem Nanocatalyst Design: Putting Two Step-Reaction Sites into One Location towards Enhanced Hydrogen Transfer Reactions." Sci. China-Mater. 62, 1297-1305 (2019).
2018
[9] Yang You†, Hao Huang†, Zijian Cai, Panyiming Liu, Song Xia, Ran Long*, Li Song, and Yujie Xiong*, "Design of Pd{111}-TiO2 Interface for Enhanced Catalytic Efficiency towards Formic Acid Decomposition." Sci. China-Chem. 61, 1123-1127 (2018).
[8] Panyiming Liu†, Zijian Cai†, Yang You†, Hao Huang†, Shuangming Chen, Chao Gao, Zeming Qi, Ran Long*, Junfa Zhu, Li Song, and Yujie Xiong*, "Surface Modification on Pd-TiO2 Hybrid Nanostructures toward Highly Efficient H2 Production from Catalytic Formic Acid Decomposition." Chem. Eur. J. 24, 18398-18402 (2018).
2017
[7] Hao Huang, Ran Long*, and Yujie Xiong*, "Design of Plasmonic-Catalytic Materials for Organic Hydrogenation Applications." Acta Phys.-Chim. Sin. 33, 661-669 (2017).
[6] Wei Ye, Ran Long*, Hao Huang, and Yujie Xiong*, "Plasmonic Nanostructures in Solar Energy Conversion." J. Mater. Chem. C 5, 1008-1021 (2017).
[5] Yu Bai, Hao Huang, Chengming Wang, Ran Long*, and Yujie Xiong*, "Engineering the Surface Charge States of Nanostructures for Enhanced Catalytic Performance." Mater. Chem. Front. 1, 1951-1964 (2017).
2016
[4] Hao Huang†, Lei Zhang†, Zhiheng Lv, Ran Long, Chao Zhang, Yue Lin, Kecheng Wei, Chengming Wang, Lu Chen, Zhi-Yuan Li, Qun Zhang*, Yi Luo, and Yujie Xiong*, "Unraveling Surface Plasmon Decay in Core−Shell Nanostructures toward Broadband Light-Driven Catalytic Organic Synthesis." J. Am. Chem. Soc. 138, 6822-6828 (2016).
[3] Dong Liu, Maolin Xie, Chengming Wang*, Lingwen Liao, Lu Qiu, Jun Ma, Hao Huang, Ran Long, Jun Jiang*, and Yujie Xiong*, "Pd-Ag Alloy Hollow Nanostructures with Interatomic Charge Polarization for Enhanced Electrocatalytic Formic Acid Oxidation." Nano Res. 9, 1590-1599 (2016).
Before 2016
[2] Ran Long, Hao Huang, Yaping Li, Li Song, and Yujie Xiong*, "Palladium-Based Nanomaterials: A Platform to Produce Reactive Oxygen Species for Catalyzing Oxidation." Adv. Mater. 27, 7025-7042 (2015).
[1] Yu Bai, Ran Long, Chengming Wang, Ming Gong, Yanrui Li, Hao Huang, Hui Xu, Zhengquan Li, Mingsen Deng, and Yujie Xiong*, "Activation of Specific Sites on Cubic Nanocrystals: A New Pathway for Controlled Epitaxial Growth towards Catalytic Applications." J. Mater. Chem. A 1, 4228-4235 (2013)
发明专利
1. 熊宇杰,黄浩,龙冉, "一种用于炔烃氢化反应的催化剂及其制备方法." 中国专利, 专利号: CN 108993597 B (2020).