2016 - 2020 (37)
2020
[44] Li, X.; Cao, C.-S.; Hung, S.-F.; Lu, Y.-R.; Cai, W.; Rykov, A. I.; Miao, S.; Xi, S.; Yang, H.; Hu, Z.; Wang, J.; Zhao, J.; Alp, E. E.; Xu, W.; Chan, T.-S.; Chen, H.; Xiong, Q.; Xiao, H.; Huang, Y.; Li, J.; Zhang, T.; Liu, B. Identification of the Electronic and Structural Dynamics of Catalytic Centers in Single-Fe-Atom Material. Chem 2020, 6, 3440-3454.
[43] Li, Y.; Xu, A.; Lum, Y.; Wang, X.; Hung, S.-F.; Chen, B.; Wang, Z.; Xu, Y.; Li, F.; Abed, J.; Rasouli, A. S.; Wick, J.; Sagar, L. K.; Peng, T.; Ip, A. H.; Sinton, D.; Jiang, H.; Li, C.; Sargent, E. H. Promoting CO2 Methanation via Ligand-stabilized Metal Oxide Clusters as Hydrogen- donating Motifs. Nature Commun. 2020, 11, 6190.
[42] Hung, S.-F.* Electrochemical Flow Systems Enable Renewable Energy Industrial Chain of CO2 Reduction. Pure Appl. Chem. 2020, 92, 1937-1951. (Invited article in Diamond Jubilee Issue to celebrate the 60th anniversary of Pure and Applied Chemistry)
[41] Ozden, A.; Li, F.; Garcia de Arquer, F. P.; Rosas-Hernández, A.; Thevenon, A.; Wang, Y.; Hung, S.-F.; Wang, X.; Chen, B.; Li, J.; Wicks, J.; Luo, M.; Wang, Z.; Agapie, T.; Peters, J.; Sargent, E. H.; Sinton, D. High-rate and efficient ethylene electrosynthesis using a catalyst:promoter:transport layer. ACS Energy Lett. 2020, 5, 2811-2818.
[40] Wang, Q.; Xu, C.-Q.; Liu, W.; Hung, S.-F.; Yang, H. B.; Gao, J.; Cai, W.; Chen, H. M.; Li, J.; Liu, B. Coordination Engineering of Iridium Nanocluster Bifunctional Electrocatalyst for Highly Efficient and pH-universal Overall Water Splitting. Nature Commun. 2020, 11, 4246.
[39] Jiang, L.; Liu, K.; Hung, S.-F.; Zhou, L.; Qin, R.; Zhang, Q.; Liu, P.; Gu, L.; Chen, H. M.; Fu, G.; Zheng, N. Facet Engineering Accelerates Spillover Hydrogenation on Highly Diluted Metal Nanocatalysts. Nature Nanotechnol. 2020, 15, 848-853.
[38] Hung, S.-F.* In-situ X-ray Techniques for non-noble Electrocatalysts. Pure Appl. Chem. 2020, 92, 733-749. (Invited Review for IUPAC-Solvay International Award for Young Chemists)
[37] Cai, W.; Chen, R.; Yang, H.; Tao, H. B.; Wang, H.-Y.; Gao, J.; Liu, W.; Liu, S.; Hung, S.-F.; Liu, B. Amorphous vs Crystalline in Water Oxidation Catalysis: A Case Study of NiFe alloy. Nano Lett. 2020, 20, 4278-4285.
[36] Wang, X.; Wang, Z.; García de Arquer, F. P.; Dinh, C.-T.; Ozden, A.; Li, C. Y.; Nam, D.-H.; Li, J.; Liu, Y.-S.; Wicks, J.; Chen, Z.; Chi, M.; Chen, B.; Wang, Y.; Tam, J.; Howe, J. Y.; Proppe, A.; Todorović, P.; Li, F.; Zhuang, T.-T.; Gabardo C. M.; Kirmani, A. R.; McCallum, C.; Hung, S.-F.; Lum, Y.; Luo, M.; Min, Y.; Xu, A.; O'Brien, C. P.; Stephen, B.; Sun, B.; Ip, A. H.; Richter, L. J.; Kelley, S. O.; Sinton, D.; Sargent, E. H. Efficient electrically-powered CO2-to-ethanol via suppression of deoxygenation. Nature Energy 2020, 5, 478-486.
[35] Wang, X.; Xu, A.; Li, F.; Hung, S.-F.; Nam, D.-H.; Gabardo, C. M.; Wang, Z.; Xu, Y.; Ozden, A.; Rasouli, A. S.; Ip, A. H.; Sinton, D.; Sargent, E. H. Efficient methane electrosynthesis enabled by tuning local CO2 availability. J. Am. Chem. Soc. 2020, 142, 3525-3531.
[34] Gao, J.; Yang, H. B.; Huang, X.; Hung, S.-F.; Cai, W.; Jia, C.; Miao, S.; Chen, H. M.; Yang, X.; Huang, Y.; Zhang, T.; Liu, B. Enabling Direct H2O2 Production in Acidic Media through Rational Design of Transition Metal Single Atom Catalyst. Chem 2020, 6, 658-674.
[33] Li, F.; Li, C. Y.; Wang, Z.; Li, J.; Nam, D.-H.; Lum, Y.; Luo, M.; Wang, X.; Ozden, A.; Hung, S.-F.; Chen, B.; Wang, Y.; Wicks, J.; Xu, Y.; Li, Y.; Gabardo C. M.; Dinh, C.-T.; Wang, Y.; Zhuang, T.-T.; Sinton, D.; Sargent, E. H. Cooperative CO2-to-Ethanol Conversion via Enriched Intermediates at Molecule:Metal Catalyst Interfaces. Nature Catal. 2020, 3, 75-82.
[32] Liu, S.; Yang, H. B.; Hung, S.-F.; Ding, J.; Cai, W.; Liu, L.; Gao, J.; Li, X.; Ren, X.; Kuang, Z.; Huang, Y.; Zhang, T.; Liu, B. Electrifying Model Single-Atom Catalyst for Elucidating the CO2 Reduction Reaction. Angew. Chem. Int. Ed. 2020, 59, 798-803. (Inside Cover)
2019
[31] Chang, C.-J.; Hung, S.-F.; Hsu, C.-S.; Chen, H.-C.; Lin, S.-C.; Liao, Y.-F.; Chen, H. M. Quantitatively Unraveling the Redox Shuttle of Spontaneous Oxidation/Electroreduction of CuOx on Silver Nanowires Using in Situ X-ray Absorption Spectroscopy. ACS Cent. Sci. 2019, 5, 1998-2009. (Front Cover)
[30] Hung, S.-F.; Zhu, Y.; Tzeng, G.-Q.; Chen, H.-C.; Hsu, C.-S.; Liao, Y.-F.; Ishii, H.; Hiraoka, N.; Chen H. M. In Situ Spatially Coherent Identification of Phosphide-based Catalysts: Crystallographic Latching for High-efficient Overall Water Electrolysis. ACS Energy Lett. 2019, 4, 2813-2820.
[29] Chen, R.; Hung, S.‐F.; Zhou, D.; Gao, J.; Yang, C.; Tao, H.; Yang, H. B.; Zhang, L.; Xiong, Q.; Chen H. M.; Liu, B. Layered Structure Causes Bulk NiFe Layered Double Hydroxide Unstable in Alkaline Oxygen Evolution Reaction. Adv. Mater. 2019, 1903909.
[28] Yuan, L.; Hung, S.-F.; Tang, Z.-R.; Chen, H. M.; Xiong, Y.; Xu, Y.-J. Dynamic Evolution of Atomically Dispersed Cu Species for CO2 Photoreduction to Solar Fuels. ACS Catal. 2019, 9, 4824-4833.
[27] Chen, G.; Zhu, Y.; Chen, H. M.; Hu, Z.; Hung, S.-F.; Ma, N.; Dai, J.; Lin, H.-J.; Chen, C.-T.; Zhou, W.; Shao, Z. An Amorphous Nickel–Iron‐Based Electrocatalyst with Unusual Local Structures for Ultrafast Oxygen Evolution Reaction. Adv. Mater. 2019, 31, 1900883.
[26] Jiao, J.; Lin, R.; Liu, S.; Cheong, W.-C.; Zhang, C.; Chen Z.; Pan, Y.; Wu, K.; Hung, S.-F.; Chen, H. M.; Zheng, L. R.; Lu, Q.; Yang, X.; Xu, B.; Xiao, H.; Li, J.; Wang, D.; Peng, Q.; Chen, C.; Li, Y. Cu atom-pair catalyst anchored on alloy nanowires for selective and efficient electrochemical reduction of CO2. Nature Chem. 2019, 11, 222-228.
[25] Gao, J.; Xu, C.-Q.; Hung, S.-F.; Liu, W.; Cai, W.; Zeng, Z.; Jia, C.; Chen, H. M.; Xiao, H.; Li, J.; Huang, Y.; Liu, B. Breaking Long-Range Order in Iridium Oxide by Alkali Ion for Efficient Water Oxidation. J. Am. Chem. Soc. 2019, 141, 3014-3023.
2018
[24] Hung, S.-F.; Chan, Y.-T.; Chang, C.-C.; Tsai, M.-K.; Liao, Y.-F.; Hiraoka, N.; Hsu, C.-S.; Chen, H. M. Identification of Stabilizing High-valent Active Sites by Operando High-energy Resolution Fluorescence-detected X-ray Absorption Spectroscopy for High Efficient Water Oxidation. J. Am. Chem. Soc. 2018, 140, 17263-17270.
[23] Hsu, S.‐H.; Hung, S.‐F.; Wang, H.‐Y.; Xiao, F.‐X.; Zhang, L.; Yang, H.; Chen, H. M.; Lee, J.‐M.; Liu, B. Tuning the Electronic Spin State of Catalysts by Strain Control for Highly Efficient Water Electrolysis. Small Methods 2018, 1800001.
[22] Hsu, S.‐H.; Miao, J.; Zhang, L.; Gao, J.; Wang, H.; Tao, H.; Hung, S.‐F.; Vasileff, A.; Qiao, S. Z.; Liu B. An Earth‐Abundant Catalyst‐Based Seawater Photoelectrolysis System with 17.9% Solar‐to‐Hydrogen Efficiency. Adv. Mater. 2018, 1707261.
[21] Hung, S.-F.; Chen, Z.-Z.; Chang, C.-C.; Hsu, C.-S.; Tsai, M.-K.; Kang, C.-C.; Chen, H. M. Dual-Hole Excitons Activated Photoelectrolysis in Neutral Solution. Small 2018, 14, 1704047.
[20] Yang, H.; Hung, S.-F.; Liu, S.; Yuan, K.; Miao, S.; Zhang, L.; Huang, X.; Wang, H.-Y.; Cai, W.; Chen, R.; Gao, J.; Yang, X.; Chen, W.; Huang, Y.; Chen, H. M.; Li, C.; Zhang, T.; Liu, B. Atomically Dispersed, Low valent Ni(I) as the Active Site for Electrochemical CO2 Reduction. Nature Energy 2018, 3, 140-147.
[19] Ma, L.; Hung, S.-F.; Zhang, L.; Cai, W.; Yang, H. B.; Chen, H. M.; Liu, B. High Spin State Promotes Water Oxidation Catalysis at Neutral pH in Spinel Cobalt Oxide. Ind. Eng. Chem. Res. 2018, 57, 1441-1445.
[18] Hung, S.-F.; Hsu, Y.-Y.; Chang, C.-J.; Hsu, C.-S.; Suen, N.-T.; Chan, T.-S.; Chen, H. M. Unraveling Geometrical Site Confinement in Iron-Doped Electrocataltsts toward Oxygen Evolution Reaction. Adv. Energy Mater. 2018, 8, 1701686. (Back Cover)
2017
[17] Ma, Q.; Hu, C.; Liu, K.; Hung, S.-F.; Ou, D.; Chen, H. M.; Fu, G.; Zheng, N. Identifying the Elelctrocatalytic Sites of Nickel Disulfide in Alkaline Hydrogen Evolution Reaction. Nano Energy 2017, 41, 148-153.
[16] Hu, C.; Ma, Q.; Hung, S.-F.; Chen, Z.; Ren, B.; Chen, H. M.; Fu, G.; Zheng, N. In Situ Electrochemical Production of Ultrathin Nickel Nanosheets for Efficient Hydrogen Evolution Electrocatalysis. Chem 2017, 3, 122-133.
[15] Suen, N.-T.; Hung, S.-F.; Quan, Q.; Zhang, N.; Xu, Y.-J.; Chen, H. M. Electrocatalysis for the oxygen evolution reaction: recent development and future perspectives. Chem. Soc. Rev. 2017, 46, 337-365. (Front Cover)
2016
[14] Wang, H.-Y.; Hung, S.-F.; Hsu, Y.-Y.; Zhang, L.; Miao, J.; Chan, T.-S.; Xiong, Q.; Liu, B. In-Situ Spectroscopic Identification of μ-OO Bridging on Spinel Co3O4 Water Oxidation Electrocatalyst. J. Phys. Chem. Lett. 2016, 7, 4847-4853.
[13] Gao, J.; Jia, C.; Zhang, L.; Wang, H.; Yang, Y.; Hung, S.-F.; Hsu, Y.-Y.; Liu, B. Tuning Chemical Bonding of MnO2 through Transition-Metal Doping for Enhanced CO Oxidation. J. Catal. 2016, 341, 82-90.
[12] Hung, S.-F.; Tung, C.-W.; Chan, T.-S.; Chen, H. M. In-Situ Morphological Transformation and Investigation of Electrocatalytic Properties of Cobalt Oxide Nanostructures toward Oxygen Evolution. CrystEngComm 2016, 18, 6008.
[11] Yang, H. B.; Miao, J.; Hung, S. F.; Chen, J.; Tao, H. B.; Wang, X.; Zhang, L.; Chen, R.; Gao, J.; Chen, H. M.; Dai, L.; Liu, B. Identification of Catalytic Sites for Oxygen Reduction and Oxygen Evolution in N-Doped Graphene Materials: Development of Highly Efficient Metal-Free Bifunctional Electrocatalyst. Science Adv. 2016, 2, e1501122.
[10] Hung, S.-F.; Xiao, F.-X.; Hsu, Y.-Y.; Suen, N.-T., Yang, H. B.; Chen, H. M.; Liu, B. Iridium Oxide-Assisted Plasmon-Induced Hot Carriers: Improvement on Kinetics and Thermodynamics of Hot Carriers. Adv. Energy Mater. 2016, 6, 1501339. (Back Cover)
[9] Wang, H.-Y.; Hung, S.-F.; Chen, H.-Y.; Chan, T.-S.; Chen, H. M.; Liu, B. In Operando Identification of Geometrical-Site-Dependent Water Oxidation Activity of Spinel Co3O4. J. Am. Chem. Soc. 2016, 138, 36–39.
[8] Hung, S.-F.; Yu, Y.-C.; Suen, N.-T.; Tzeng, G.-Q.; Tung, C.-W.; Hsu, Y.-Y.; Hsu, C.-S.; Chang, C.-K.; Chan, T.-S.; Sheu, H.-S.; Lee, J.-F.; Chen, H. M. The Synergistic Effect of a Well-Defined Au@Pt Core-Shell Nanostructure Toward Photocatalytic Hydrogen Generation: Interface Engineering to Improve the Schottky Barrier and Hydrogen-Evolved Kinetics. Chem. Commun. 2016, 52, 1567-1570. (Inside Cover)
