Results 1-160 of 160 (Search time: 0.009 seconds).
Issue Date | Title | Author(s) | Source | scopus | WOS | Fulltext/Archive link | |
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1 | 2024 | Electronic structure engineering of electrocatalyst for efficient urea oxidation reaction | Rasal, Akash S.; HAO MING CHEN ; Wen-Yueh Yu | Nano Energy | |||
2 | 2024 | Crystal Phase Engineering of Ultrathin Alloy Nanostructures for Highly Efficient Electroreduction of Nitrate to Ammonia | Wang, Yunhao; Hao, Fengkun; Sun, Mingzi; Liu, Meng-Ting; Zhou, Jingwen; Xiong, Yuecheng; Ye, Chenliang; Wang, Xixi; Liu, Fu; Wang, Juan; Lu, Pengyi; Ma, Yangbo; Yin, Jinwen; Chen, Hsiao-Chien; Zhang, Qinghua; Gu, Lin; HAO MING CHEN ; Huang, Bolong; Fan, Zhanxi | Advanced materials (Deerfield Beach, Fla.) | 5 | ||
3 | 2024 | Elucidating the Epitaxial Growth Mechanisms of Solution-Derived BiVO4 Thin Films Utilizing Rapid Thermal Annealing | Tu, Guan Zhu; Chen, Jong Yu; Zhen, Zhong Xian; Li, Yi; Chang, Chia Wei; Chang, Wen Jui; HAO MING CHEN ; CHANG-MING JIANG | ACS Applied Electronic Materials | |||
4 | 2023 | Reversibly Adapting Configuration in Atomic Catalysts Enables Efficient Oxygen Electroreduction | Tan, Hui-Ying; Lin, Sheng-Chih; Wang, Jiali; Chen, Jui-Hsien; Chang, Chia-Jui; Hou, Cheng-Hung; Shyue, Jing-Jong; Kuo, Tsung-Rong; HAO MING CHEN | Journal of the American Chemical Society | 3 | ||
5 | 2023 | Operando identification of synergistic dynamic for cobalt-tungsten-based bimetallic electrocatalysts in oxygen evolution reaction | Lai, T. Y.; Chu, Y. C.; Lai, Y. A.; Chang, C. J.; Wu, C. H.; Chen, Y. Y.; Liu, C. Y.; Wu, D. Y.; Tung, C. W.; HAO MING CHEN | Materials Today Sustainability | 0 | 0 | |
6 | 2023 | Novel insight from in-/ex-situ investigation toward intercalated water in high-performance oxygen evolution electrocatalysts and their mechanisms | Wang, Guan Bo; Lin, Li Ling; Wang, Hsiang Ting; HAO MING CHEN | Journal of the Chinese Chemical Society | |||
7 | 2023 | In situ X-ray spectroscopies beyond conventional X-ray absorption spectroscopy on deciphering dynamic configuration of electrocatalysts | Wang, Jiali; Hsu, Chia-Shuo; Wu, Tai-Sing; Chan, Ting-Shan; Suen, Nian-Tzu; Lee, Jyh-Fu; HAO MING CHEN | Nature communications | 11 | 4 | |
8 | 2023 | Activating dynamic atomic-configuration for single-site electrocatalyst in electrochemical CO2 reduction | Hsu, Chia-Shuo; Wang, Jiali; Chu, You-Chiuan; Chen, Jui-Hsien; Chien, Chia-Ying; Lin, Kuo-Hsin; Tsai, Li Duan; Chen, Hsiao-Chien; Liao, Yen-Fa; Hiraoka, Nozomu; YUAN-CHUNG CHENG ; HAO MING CHEN | Nature communications | 8 | 2 | |
9 | 2023 | Dealloying-Induced Zeolite-like Metal Framework of AB2 Laves Phase Intermetallic Electrocatalysts | Ji, Shen-Jing; Cao, Li-Wen; Zhang, Peng; Wang, Guan-Bo; Lu, Ying-Rui; Suen, Nian-Tzu; Hung, Sung-Fu; HAO MING CHEN | Journal of the American Chemical Society | 3 | 0 | |
10 | 2023 | Spatially and temporally understanding dynamic solid-electrolyte interfaces in carbon dioxide electroreduction | Wang, Jiali; Tan, Hui-Ying; Qi, Ming-Yu; Li, Jing-Yu; Tang, Zi-Rong; Suen, Nian-Tzu; Xu, Yi-Jun; HAO MING CHEN | Chemical Society reviews | 22 | 4 | |
11 | 2023 | Electron induction of atomically dispersed Fe sites by adjacent Te atoms promotes CO2 activation in electroreduction | Pan, Yuan; Liu, Chuhao; Zhang, Nannan; Li, Min; Wang, Minmin; Yang, Xuan; Chen, Hsiao Chien; Zhang, Yanhui; Hu, Wei; Yan, Wensheng; HAO MING CHEN ; Liu, Shoujie; Xiao, Hai; Li, Jun; Chen, Chen | Chem Catalysis | 6 | 5 | |
12 | 2023 | Single-Atom Engineering of Covalent Organic Framework for Photocatalytic H2 Production Coupled with Benzylamine Oxidation | Xia, Yang; Zhu, Bicheng; Li, Liuyi; Ho, Wingkei; Wu, Jinsong; HAO MING CHEN ; Yu, Jiaguo | Small (Weinheim an der Bergstrasse, Germany) | 9 | 1 | |
13 | 2023 | Atomic Interface Engineering of Single-Atom Pt/TiO2 -Ti3 C2 for Boosting Photocatalytic CO2 Reduction | Li, Han; Song, Qinjun; Wan, Sijie; Tung, Ching-Wei; Liu, Chengyuan; Pan, Yang; Luo, GuoQiang; HAO MING CHEN ; Cao, Shaowen; Yu, Jiaguo; Zhang, LianMeng | Small (Weinheim an der Bergstrasse, Germany) | 17 | 0 | |
14 | 2023 | Lewis Acidic Support Boosts C-C Coupling in the Pulsed Electrochemical CO2 Reaction | Chang, Chia-Jui; Lai, Yi-An; Chu, You-Chiuan; Peng, Chun-Kuo; Tan, Hui-Ying; Pao, Chih-Wen; Lin, Yan-Gu; Hung, Sung-Fu; Chen, Hsiao-Chien; HAO MING CHEN | Journal of the American Chemical Society | 18 | 14 | |
15 | 2023 | Operando identification of a side-on nickel superoxide intermediate and the mechanism of oxygen evolution on nickel oxyhydroxide | Lee, Seunghwa; Chu, You Chiuan; Bai, Lichen; HAO MING CHEN ; Hu, Xile | Chem Catalysis | 6 | 5 | |
16 | 2023 | Strain enhances the activity of molecular electrocatalysts via carbon nanotube supports | Su, Jianjun; Musgrave, Charles B.; Song, Yun; Huang, Libei; Liu, Yong; Li, Geng; Xin, Yinger; Xiong, Pei; Li, Molly Meng Jung; Wu, Haoran; Zhu, Minghui; HAO MING CHEN ; Zhang, Jianyu; Shen, Hanchen; Tang, Ben Zhong; Robert, Marc; Goddard, William A.; Ye, Ruquan | Nature Catalysis | 10 | 8 | |
17 | 2023 | Atomic metal–non-metal catalytic pair drives efficient hydrogen oxidation catalysis in fuel cells | Wang, Qilun; Wang, Huawei; Cao, Hao; Tung, Ching Wei; Liu, Wei; Hung, Sung Fu; Wang, Weijue; Zhu, Chun; Zhang, Zihou; Cai, Weizheng; Cheng, Yaqi; Tao, Hua Bing; HAO MING CHEN ; Wang, Yang Gang; Li, Yujing; Yang, Hong Bin; Huang, Yanqiang; Li, Jun; Liu, Bin | Nature Catalysis | 1 | 0 | |
18 | 2023 | Bimetallic Pd-Sn Catalytic Electrodes from Deep Eutectic Solvents for Selective Nitrate Reduction Toward Nitrogen | Kuan, Wei Fan; Chen, Ching Lung; Ahmad, Muhammad Sheraz; Hsieh, Chia Hsun; HAO MING CHEN ; Su, Jenn Fang | Advanced Sustainable Systems | |||
19 | 2023 | Supported Ruthenium Single-Atom and Clustered Catalysts Outperform Benchmark Pt for Alkaline Hydrogen Evolution | Zhu, Yanping; Fan, Ke; Hsu, Chia Shuo; Chen, Gao; Chen, Changsheng; Liu, Tiancheng; Lin, Zezhou; She, Sixuan; Li, Liuqing; Zhou, Hanmo; Zhu, Ye; HAO MING CHEN ; Huang, Haitao | Advanced Materials | 18 | 4 | |
20 | 2023 | Synergistic interactions between PtRu catalyst and nitrogen-doped carbon support boost hydrogen oxidation | Ni, Weiyan; Meibom, Josephine Lederballe; Hassan, Noor Ul; Chang, Miyeon; Chu, You Chiuan; Krammer, Anna; Sun, Songlan; Zheng, Yiwei; Bai, Lichen; Ma, Wenchao; Lee, Seunghwa; Jin, Seongmin; Luterbacher, Jeremy S.; Schüler, Andreas; HAO MING CHEN ; Mustain, William E.; Hu, Xile | Nature Catalysis | 0 | 1 | |
21 | 2023 | Oxygen Vacancies Unfold the Catalytic Potential of NiFe-Layered Double Hydroxides by Promoting Their Electronic Transport for Oxygen Evolution Reaction | Zhang, HY; Wu, LL; Feng, RH; Wang, SH; Hsu, CS; Ni, YM; Ahmad, A; Zhang, CR; Wu, HF; HAO MING CHEN ; Zhang, W; Li, Y; Liu, P; Song, F | ACS CATALYSIS | 8 | 15 | |
22 | 2023 | Dynamic Coordination Structure Evolutions of Atomically Dispersed Metal Catalysts for Electrocatalytic Reactions | Tan, HY; Wang, JL; Lin, SC; Kuo, TR; HAO MING CHEN | ADVANCED MATERIALS INTERFACES | 8 | 6 | |
23 | 2022 | Hetero-Atomic Pairs with a Distal Fe3+ -Site Boost Water Oxidation | Zhu, Yanping; Chen, Gao; Chu, You-Chiuan; Hsu, Chia-Shuo; Wang, Jiali; Tung, Ching-Wei; HAO MING CHEN | Angewandte Chemie (International ed. in English) | 39 | 27 | |
24 | 2022 | Identifying the geometric catalytic active sites of crystalline cobalt oxyhydroxides for oxygen evolution reaction | Wang, Sihong; Jiang, Qu; Ju, Shenghong; Hsu, Chia-Shuo; HAO MING CHEN ; Zhang, Di; Song, Fang | Nature communications | 44 | 29 | |
25 | 2022 | Lead-free hybrid perovskite photocatalysts: surface engineering, charge-carrier behaviors, and solar-driven applications | Tang, YQ; Mak, CH; Jia, GH; KUAN-CHEN CHENG ; Kai, JJ; Hsieh, CW; Meng, FX; Niu, WX; Li, FF; Shen, HH; Zhu, XJ; HAO-MING CHEN ; Hsu, HY | JOURNAL OF MATERIALS CHEMISTRY A | 23 | 21 | |
26 | 2022 | Metallene pre-catalyst reconstruction for boosting catalytic performance | Wang, JL; Hao Ming Chen | CHEM CATALYSIS | 2 | 2 | |
27 | 2022 | Dynamic Co(µ-O)2Ru Moiety Endowed Efficiently Catalytic Hydrogen Evolution | Tung C.-W; Kuo T.-R; Huang Y.-P; Chu Y.-C; Hou C.-H; Li Y; Suen N.-T; Han J; HAO MING CHEN | Advanced Energy Materials | 28 | 15 | |
28 | 2022 | Tracking the in situ generation of hetero-metal-metal bonds in phosphide electrocatalysts for electrocatalytic hydrogen evolution | Tung C.-W; Huang Y.-P; Hsu C.-S; Chen T.-L; Chang C.-J; HAO MING CHEN ; Chen H.-C. | Catalysis Science and Technology | 1 | 2 | |
29 | 2022 | Bisulfate as a redox-active ligand in vanadium-based electrocatalysis for CH4functionalization | Xiang D; Lin S.-C; Deng J; HAO MING CHEN ; Liu C. | Chemical Communications | 1 | 0 | |
30 | 2022 | Construction of N, P Co-Doped Carbon Frames Anchored with Fe Single Atoms and Fe2P Nanoparticles as a Robust Coupling Catalyst for Electrocatalytic Oxygen Reduction | Pan Y; Ma X; Wang M; Yang X; Liu S; Chen H.-C; Zhuang Z; Zhang Y; Cheong W.-C; Zhang C; Cao X; Shen R; Xu Q; Zhu W; Liu Y; Wang X; Zhang X; Yan W; Li J; HAO MING CHEN ; Chen C; Li Y. | Advanced Materials | 70 | 56 | |
31 | 2022 | Pt-Ru Dimer Electrocatalyst with Electron Redistribution for Hydrogen Evolution Reaction | Zhao W; Luo C; Lin Y; Wang G.-B; HAO MING CHEN ; Kuang P; Yu J. | ACS Catalysis | 37 | 35 | |
32 | 2022 | Tracking high-valent surface iron species in the oxygen evolution reaction on cobalt iron (oxy)hydroxides | Lee S; Moysiadou A; Chu Y.-C; HAO MING CHEN ; Hu X. | Energy and Environmental Science | |||
33 | 2022 | In situ probing the dynamic reconstruction of copper-zinc electrocatalysts for CO2 reduction | Huang Y.-P; Tung C.-W; Chen T.-L; Hsu C.-S; Liao M.-Y; Chen H.-C; HAO MING CHEN | Nanoscale | 3 | 3 | |
34 | 2022 | Strong Correlation between the Dynamic Chemical State and Product Profile of Carbon Dioxide Electroreduction | Wang J; Chen H.-C; Tan H.-Y; Tan C.M; Zhu Y; HAO MING CHEN | ACS Applied Materials and Interfaces | 20 | 14 | |
35 | 2022 | Engineering Lattice Disorder on a Photocatalyst: Photochromic BiOBr Nanosheets Enhance Activation of Aromatic C-H Bonds via Water Oxidation | Cao X; Huang A; Liang C; Chen H.-C; Han T; Lin R; Peng Q; Zhuang Z; Shen R; HAO MING CHEN ; Yu Y; Chen C; Li Y. | Journal of the American Chemical Society | 90 | 64 | |
36 | 2022 | Atomic Metal-Support Interaction Enables Reconstruction-Free Dual-Site Electrocatalyst | Sun H; Tung C.-W; Qiu Y; Zhang W; Wang Q; Li Z; Tang J; Chen H.-C; Wang C; HAO MING CHEN | Journal of the American Chemical Society | 190 | ||
37 | 2021 | MOF-Templated Sulfurization of Atomically Dispersed Manganese Catalysts Facilitating Electroreduction of CO2to CO | Tan H.-Y; Lin S.-C; Wang J; Chang C.-J; Haw S.-C; Lin K.-H; Tsai L.D; Chen H.-C; HAO MING CHEN | ACS Applied Materials and Interfaces | |||
38 | 2021 | Double-atom catalysts as a molecular platform for heterogeneous oxygen evolution electrocatalysis | Bai L; Hsu C.-S; Alexander D.T.L; HAO MING CHEN ; Hu X. | Nature Energy | |||
39 | 2021 | Linking the Dynamic Chemical State of Catalysts with the Product Profile of Electrocatalytic CO2 Reduction | Wang J; Tan H.-Y; Zhu Y; Chu H; HAO MING CHEN | Angewandte Chemie - International Edition | |||
40 | 2021 | Electrocatalytic Methane Functionalization with d0 Early Transition Metals Under Ambient Conditions | Deng J; Lin S.-C; Fuller J.T; III, Zandkarimi B; HAO MING CHEN ; Alexandrova A.N; Liu C. | Angewandte Chemie - International Edition | 5 | ||
41 | 2021 | Unveiling the in Situ Generation of a Monovalent Fe(I) Site in the Single-Fe-Atom Catalyst for Electrochemical CO2 Reduction | Li X; Zeng Y; Tung C.-W; Lu Y.-R; Baskaran S; Hung S.-F; Wang S; Xu C.-Q; Wang J; Chan T.-S; HAO MING CHEN ; Jiang J; Yu Q; Huang Y; Li J; Zhang T; Liu B. | ACS Catalysis | |||
42 | 2021 | Vertical 2D/3D Heterojunction of Tin Perovskites for Highly Efficient HTM-Free Perovskite Solar Cell | Lin J.-T; Chu T.-C; Chen D.-G; Huang Z.-X; Chen H.-C; Li C.-S; Wu C.-I; Chou P.-T; Chiu C.-W; CHING-WEN CHIU ; HAO MING CHEN ; PI-TAI CHOU ; CHIH-I WU | ACS Applied Energy Materials | 22 | 19 | |
43 | 2021 | Product-Specific Active Site Motifs of Cu for Electrochemical CO2 Reduction | Zhu C; HAO MING CHEN et al. | Chem | 58 | 51 | |
44 | 2021 | In Situ Identifying the Dynamic Structure behind Activity of Atomically Dispersed Platinum Catalyst toward Hydrogen Evolution Reaction | Wang J; Tan H.-Y; Kuo T.-R; Lin S.-C; Hsu C.-S; Zhu Y; Chu Y.-C; Chen T.L; Lee J.-F; HAO MING CHEN | Small | 42 | ||
45 | 2021 | A Universal Approach for Controllable Synthesis of n-Specific Layered 2D Perovskite Nanoplates | Lin J.-T; Chen D.-G; Wu C.-H; Hsu C.-S; Chien C.-Y; Chen H.-M; Chou P.-T; CHING-WEN CHIU ; HAO MING CHEN ; PI-TAI CHOU | Angewandte Chemie - International Edition | 23 | 20 | |
46 | 2021 | Materials Engineering of Violin Soundboards by Stradivari and Guarneri | Su C.-K; Chen S.-Y; Chung J.-H; Li G.-C; Brandmair B; Huthwelker T; Fulton J.L; Borca C.N; Huang S.-J; Nagyvary J; Tseng H.-H; Chang C.-H; Chung D.-T; Vescovi R; Tsai Y.-S; Cai W; Lu B.-J; Xu J.-W; Hsu C.-S; Wu J.-J; Li H.-Z; Jheng Y.-K; Lo S.-F; Chen H.M; Hsieh Y.-T; Chung P.-W; Chen C.-S; Sun Y.-C; Chan J.C.C; CHUN-CHUNG CHAN ; HAO MING CHEN ; HWAN-CHING TAI | Angewandte Chemie - International Edition | 12 | 10 | |
47 | 2021 | Heterocyclic-Additive-Activated Dinuclear Dysprosium Electrocatalysts for Heterogeneous Water Oxidation | Tung C.-W; Tso C.-H; Chen B.-Y; Chu H; Hou C.-H; Chen H.-C; Chang M.-C; Shyue J.-J; Lin P.-H; HAO MING CHEN ; MU-CHIEH CHANG | Inorganic Chemistry | 5 | 4 | |
48 | 2021 | Emerging dynamic structure of electrocatalysts unveiled by: In situ X-ray diffraction/absorption spectroscopy | Zhu Y; Kuo T.-R; Li Y.-H; Qi M.-Y; Chen G; Wang J; Xu Y.-J; HAO MING CHEN | Energy and Environmental Science | |||
49 | 2021 | Pt Single Atoms Supported on N-Doped Mesoporous Hollow Carbon Spheres with Enhanced Electrocatalytic H2-Evolution Activity | Kuang P; Wang Y; Zhu B; Xia F; Tung C.-W; Wu J; HAO MING CHEN ; Yu J. | Advanced Materials | 327 | ||
50 | 2020 | In Situ/ Operando Studies for Designing Next-Generation Electrocatalysts | Zhu Y; Wang J; Chu H; Chu Y.-C; HAO MING CHEN | ACS Energy Letters | |||
51 | 2020 | Mechanism of Oxygen Evolution Catalyzed by Cobalt Oxyhydroxide: Cobalt Superoxide Species as a Key Intermediate and Dioxygen Release as a Rate-Determining Step | Moysiadou A; Lee S; Hsu C.-S; HAO MING CHEN ; Hu X. | Journal of the American Chemical Society | 413 | ||
52 | 2020 | In situ X-ray diffraction and X-ray absorption spectroscopy of electrocatalysts for energy conversion reactions | Chang C.-J; Zhu Y; Wang J; Chen H.-C; Tung C.-W; Chu Y.-C; HAO MING CHEN | Journal of Materials Chemistry A | |||
53 | 2020 | A Single Cu-Center Containing Enzyme-Mimic Enabling Full Photosynthesis under CO2Reduction | Wang J; Heil T; Zhu B; Tung C.-W; Yu J; HAO MING CHEN ; Antonietti M; Cao S. | ACS Nano | 156 | ||
54 | 2020 | Ambient methane functionalization initiated by electrochemical oxidation of a vanadium (V)-oxo dimer | Deng J; Lin S.-C; Fuller J; Iñiguez J.A; Xiang D; Yang D; Chan G; HAO MING CHEN ; Alexandrova A.N; Liu C. | Nature Communications | 36 | ||
55 | 2020 | The individual role of active sites in bimetallic oxygen evolution reaction catalysts | Wang G.-B; Hsu C.-S; HAO MING CHEN | Dalton Transactions | 13 | ||
56 | 2020 | In situ Observation of Electrodeposited Bimetallic p-Si Micropillar Array Photocathode for Solar-Driven Hydrogen Evolution | Tung C.-W; Hou C.-H; Lin H.-T; Zheng Y; Huang Y.-P; Liao Y.-F; Shiue J.-J; HAO MING CHEN | Solar RRL | |||
57 | 2020 | Strong Catalyst-Support Interactions in Electrochemical Oxygen Evolution on Ni-Fe Layered Double Hydroxide | Gu, Haoyang et al.; HAO MING CHEN | ACS Energy Letters | |||
58 | 2020 | Electronic structure inspired a highly robust electrocatalyst for the oxygen-evolution reaction | Zhang P; Lu Y.-R; Hsu C.-S; Xue H.-G; Chan T.-S; Suen N.-T; HAO MING CHEN | Chemical Communications | 14 | 14 | |
59 | 2020 | Comprehensively Probing the Contribution of Site Activity and Population of Active Sites toward Heterogeneous Electrocatalysis | Chen H.-C; Chen T.-L; Lin S.-C; Hsu C.-S; Chan T.-S; Liao M.-Y; HAO MING CHEN | ChemCatChem | |||
60 | 2020 | Electrochemical Reduction of CO2 to Ethane through Stabilization of an Ethoxy Intermediate | Vasileff A; Zhu Y; Zhi X; Zhao Y; Ge L; HAO MING CHEN ; Zheng Y; Qiao S.-Z. | Angewandte Chemie - International Edition | 117 | ||
61 | 2020 | Identification of the Electronic and Structural Dynamics of Catalytic Centers in Single-Fe-Atom Material | Xuning Li et al.; HAO MING CHEN | Chem | |||
62 | 2020 | Enabling Direct H2O2 Production in Acidic Media through Rational Design of Transition Metal Single Atom Catalyst | Gao, Jiajian et al.; HAO MING CHEN | Chem | |||
63 | 2020 | Facet engineering accelerates spillover hydrogenation on highly diluted metal nanocatalysts | Jiang L et al.; HAO MING CHEN | Nature Nanotechnology | |||
64 | 2020 | Dynamic Reoxidation/Reduction-Driven Atomic Interdiffusion for Highly Selective CO2Reduction toward Methane | Chang C.-J; Lin S.-C; Chen H.-C; Wang J; Zheng K.J; Zhu Y; HAO MING CHEN | Journal of the American Chemical Society | 187 | ||
65 | 2020 | Operando time-resolved X-ray absorption spectroscopy reveals the chemical nature enabling highly selective CO2 reduction | Lin S.-C; Chang C.-C; Chiu S.-Y; Pai H.-T; Liao T.-Y; Hsu C.-S; Chiang W.-H; Tsai M.-K; HAO MING CHEN | Nature Communications | 251 | ||
66 | 2020 | In situ unraveling of the effect of the dynamic chemical state on selective CO2reduction upon zinc electrocatalysts | Chen T.-L; Chen H.-C; Huang Y.-P; Lin S.-C; Hou C.-H; Tan H.-Y; Tung C.-W; Chan T.-S; Shyue J.-J; HAO MING CHEN | Nanoscale | 21 | ||
67 | 2020 | Efficient Hydrogen Oxidation Catalyzed by Strain-Engineered Nickel Nanoparticles | Ni W; Wang T; Schouwink P.A; Chuang Y.-C; HAO MING CHEN ; Hu X. | Angewandte Chemie - International Edition | 84 | ||
68 | 2020 | Coordination engineering of iridium nanocluster bifunctional electrocatalyst for highly efficient and pH-universal overall water splitting | Wang Q; Xu C.-Q; Liu W; Hung S.-F; Bin Yang H; Gao J; Cai W; HAO MING CHEN ; Li J; Liu B. | Nature Communications | 234 | ||
69 | 2019 | Light-Induced Activation of Adaptive Junction for Efficient Solar-Driven Oxygen Evolution: In Situ Unraveling the Interfacial Metal–Silicon Junction | Tung, C.-W.; Kuo, T.-R.; Hsu, C.-S.; Chuang, Y.; Chen, H.-C.; Chang, C.-K.; Chien, C.-Y.; Lu, Y.-J.; Chan, T.-S.; Lee, J.-F.; Li, J.-Y.; JIUN-YUN LI ; HAO MING CHEN | Advanced Energy Materials | 30 | 32 | |
70 | 2019 | Anionic Effects on Metal Pair of Se-Doped Nickel Diphosphide for Hydrogen Evolution Reaction | Chu, Y.-C.; Chang, C.-J.; Zhu, Y.; Lin, S.-C.; Tung, C.-W.; Chen, T.-L.; HAO MING CHEN | ACS Sustainable Chemistry and Engineering | |||
71 | 2019 | Layered Structure Causes Bulk NiFe Layered Double Hydroxide Unstable in Alkaline Oxygen Evolution Reaction | Chen, R.; Hung, S.-F.; Zhou, D.; Gao, J.; Yang, C.; Tao, H.; Yang, H.B.; Zhang, L.; Zhang, L.; Xiong, Q.; HAO MING CHEN ; Liu, B. | Advanced Materials | |||
72 | 2019 | Defect Passivation by Amide-Based Hole-Transporting Interfacial Layer Enhanced Perovskite Grain Growth for Efficient p-i-n Perovskite Solar Cells | Wang, S.-Y.; Chen, C.-P.; Chung, C.-L.; Hsu, C.-W.; Hsu, H.-L.; Wu, T.-H.; Zhuang, J.-Y.; Chang, C.-J.; HAO MING CHEN ; Chang, Y.J. | ACS Applied Materials and Interfaces | |||
73 | 2019 | Markedly enhanced oxygen reduction activity of single-atom fe catalysts via integration with fe nanoclusters | Ao, X.; Zhang, W.; Li, Z.; Li, J.-G.; Soule, L.; Huang, X.; Chiang, W.-H.; HAO MING CHEN ; Wang, C.; Liu, M.; Zeng, X.C. | ACS Nano | |||
74 | 2019 | In Situ Spatially Coherent Identification of Phosphide-Based Catalysts: Crystallographic Latching for Highly Efficient Overall Water Electrolysis | Hung, S.-F.; Zhu, Y.; Tzeng, G.-Q.; Chen, H.-C.; Hsu, C.-S.; Liao, Y.-F.; Ishii, H.; Hiraoka, N.; HAO MING CHEN | ACS Energy Letters | |||
75 | 2019 | A Cobalt-Iron Double-Atom Catalyst for the Oxygen Evolution Reaction | Bai, L.; Hsu, C.-S.; Alexander, D.T.L.; HAO MING CHEN ; Hu, X. | Journal of the American Chemical Society | |||
76 | 2019 | Quantitatively Unraveling the Redox Shuttle of Spontaneous Oxidation/Electroreduction of CuOx on Silver Nanowires Using in Situ X-ray Absorption Spectroscopy | Chang, C.-J.; Hung, S.-F.; Hsu, C.-S.; Chen, H.-C.; Lin, S.-C.; Liao, Y.-F.; HAO MING CHEN | ACS Central Science | 68 | ||
77 | 2019 | Breaking Long-Range Order in Iridium Oxide by Alkali Ion for Efficient Water Oxidation | 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. | Journal of the American Chemical Society | 300 | 295 | |
78 | 2019 | Revealing the structural transformation of rutile RuO2 via in situ X-ray absorption spectroscopy during the oxygen evolution reaction | Chang, C.-J.; Chu, Y.-C.; Yan, H.-Y.; Liao, Y.-F.; Chen, H.M. | Dalton Transactions | 27 | 24 | |
79 | 2019 | Morphology Manipulation of Copper Nanocrystals and Product Selectivity in the Electrocatalytic Reduction of Carbon Dioxide | Nian-Tzu Suen; Zhong-Ri Kong; Chia-Shuo Hsu; Hsiao-Chien Chen; Ching-Wei Tung; Ying-Rui Lu; Chung-Li Dong; Chin-Chang Shen; Jen-Chieh Chung; Hao Ming Chen | ACS Catalysis | 91 | 87 | |
80 | 2019 | Copper atom-pair catalyst anchored on alloy nanowires for selective and efficient electrochemical reduction of CO2 | Jiao, J.; Lin, R.; Liu, S.; Cheong, W.-C.; Zhang, C.; Chen, Z.; Pan, Y.; Tang, J.; Wu, K.; Hung, S.-F.; Chen, H.M. ; Zheng, L.; Lu, Q.; Yang, X.; Xu, B.; Xiao, H.; Li, J.; Wang, D.; Peng, Q.; Chen, C.; Li, Y. | Nature Chemistry | 481 | 482 | |
81 | 2019 | Ni3N as an Active Hydrogen Oxidation Reaction Catalyst in Alkaline Medium | Ni, W.; Krammer, A.; Hsu, C.-S.; Chen, H.M. ; Schüler, A.; Hu, X. | Angewandte Chemie - International Edition | 202 | 186 | |
82 | 2019 | Dynamic Evolution of Atomically Dispersed Cu Species for CO2 Photoreduction to Solar Fuels | Yuan, L.; Hung, S.-F.; Tang, Z.-R.; Chen, H.M. ; Xiong, Y.; Xu, Y.-J. | ACS Catalysis | 195 | 188 | |
83 | 2019 | An Amorphous Nickel–Iron-Based Electrocatalyst with Unusual Local Structures for Ultrafast Oxygen Evolution Reaction | 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. | Advanced Materials | 264 | 253 | |
84 | 2019 | Atomically dispersed Fe3+ sites catalyze efficient CO2 electroreduction to CO | Gu, J.; Hsu, C.-S.; Bai, L.; Chen, H.M. ; Hu, X. | Science | 1003 | 1006 | |
85 | 2019 | Harnessing Dielectric Confinement on Tin Perovskites to Achieve Emission Quantum Yield up to 21% | Lin, J.-T.; Liao, C.-C.; Hsu, C.-S.; Chen, D.-G.; Chen, H.-M. ; Tsai, M.-K.; Chou, P.-T. | Journal of the American Chemical Society | 63 | 61 | |
86 | 2019 | An Unconventional Iron Nickel Catalyst for the Oxygen Evolution Reaction | Song, F; Busch, M.M.; Lassalle-Kaiser, B.; Hsu, C.-S.; Petkucheva, E.; Bensimon, M.; Chen, H.M. ; Corminboeuf, C.; Hu, X. | ACS Central Science | 234 | 225 | |
87 | 2019 | Operando Unraveling of the Structural and Chemical Stability of P-Substituted CoSe2 Electrocatalysts toward Hydrogen and Oxygen Evolution Reactions in Alkaline Electrolyte | Zhu, Y.; Chen, H.-C.; Hsu, C.-S.; Lin, T.-S.; Chang, C.-J.; Chang, S.-C.; Tsai, L.-D.; Chen, H.M. | ACS Energy Letters | 324 | 310 | |
88 | 2018 | Stabilizing ultrasmall Au clusters for enhanced photoredox catalysis | HAO MING CHEN | Nature Communications | 209 | 218 | |
89 | 2018 | Single-Atom Engineering of Directional Charge Transfer Channels and Active Sites for Photocatalytic Hydrogen Evolution | HAO MING CHEN | Advanced Functional Materials | 325 | 312 | |
90 | 2018 | A Universal Method to Engineer Metal Oxide–Metal–Carbon Interface for Highly Efficient Oxygen Reduction | Lv Lin; Dace Zha; Yunjun Ruan; Zhishan Li; Xiang Ao; Jie Zheng; Jianjun Jiang; HAO MING CHEN ; Wei-Hung Chiang; Jun Chen; Chundong Wang | ACS Nano | |||
91 | 2018 | Dual-Hole Excitons Activated Photoelectrolysis in Neutral Solution | HAO MING CHEN | Small | 0 | 0 | |
92 | 2018 | High Spin State Promotes Water Oxidation Catalysis at Neutral pH in Spinel Cobalt Oxide | Lin Ma; Sung-Fu Hung; Liping Zhang; Weizheng Cai; Hong bin Yang; HAO MING CHEN ; Bin Liu | Industrial & Engineering Chemistry Research | 27 | ||
93 | 2018 | Unraveling Geometrical Site Confinement in Highly Efficient Iron-Doped Electrocatalysts toward Oxygen Evolution Reaction | Hung, S.-F.; Hsu, Y.-Y.; Chang, C.-J.; Hsu, C.-S.; Suen, N.-T.; Chan, T.-S.; Chen, H.M. | Advanced Energy Materials | 132 | 132 | |
94 | 2018 | Atomically dispersed Ni(I) as the active site for electrochemical CO2 reduction | Yang, H.B.; 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.M.; Zhang, T.; Liu, B. | Nature Energy | 1447 | 1324 | |
95 | 2018 | In Situ Creation of Surface-Enhanced Raman Scattering Active Au–AuOx Nanostructures through Electrochemical Process for Pigment Detection | Chen, H.-C.; Chen, C.-H.; Hsu, C.-S.; Chen, T.-L.; Liao, M.-Y.; Wang, C.-C.; Tsai, C.-F.; Chen, H.M. | ACS Omega | 14 | 14 | |
96 | 2018 | π-Conjugated Organic–Inorganic Hybrid Photoanodes: Revealing the Photochemical Behavior through In Situ X-Ray Absorption Spectroscopy | Hsu, C.-S.; Węcławski, M.K.; Koszarna, B.; Gryko, D.T.; Chen, H.M. | Chemistry - A European Journal | 1 | 1 | |
97 | 2018 | Identification of Stabilizing High-Valent Active Sites by Operando High-Energy Resolution Fluorescence-Detected X-ray Absorption Spectroscopy for High-Efficiency Water Oxidation | Hung, S.-F.; Chan, Y.-T.; Chang, C.-C.; Tsai, M.-K.; Liao, Y.-F.; Hiraoka, N.; Hsu, C.-S.; Chen, H.M. | Journal of the American Chemical Society | 85 | 85 | |
98 | 2018 | Strongly Coupled Tin-Halide Perovskites to Modulate Light Emission: Tunable 550–640 nm Light Emission (FWHM 36–80 nm) with a Quantum Yield of up to 6.4% | Chen, M.-Y.; Lin, J.-T.; Hsu, C.-S.; Chang, C.-K.; Chiu, C.-W. ; Chen, H.M. ; Chou, P.-T. | Advanced Materials | 44 | 38 | |
99 | 2017 | Tunable Electrodeposition of Ni Electrocatalysts onto Si Microwires Array for Photoelectrochemical Water Oxidation | HAO MING CHEN | Particle & Particle Systems Characterization | 11 | 12 | |
100 | 2017 | Edgeless Ag–Pt Bimetallic Nanocages: In Situ Monitor Plasmon-Induced Suppression of Hydrogen Peroxide Formation | Sheng-Chih Lin; Chia-Shuo Hsu; Shih-Yun Chiu; Tzu-Yu Liao; HAO MING CHEN | Journal of the American Chemical Society | |||
101 | 2017 | Electrocatalysis for oxygen evolution reaction: recent development and future perspective | HAO MING CHEN | Chemical Society Reviews | 1482 | 4056 | |
102 | 2017 | Breakthrough to non-vacuum deposition of single-crystal, ultra-thin, homogeneous nanoparticle layers: A better alternative to chemical bath deposition and atomic layer deposition | Liao, Y.-K.; Liu, Y.-T.; Hsieh, D.-H.; Shen, T.-L.; Hsieh, M.-Y.; Tzou, A.-J.; Chen, S.-C.; Tsai, Y.-L.; Lin, W.-S.; Chan, S.-W.; Shen, Y.-P.; Cheng, S.-J.; Chen, C.-H.; Wu, K.-H.; Chen, H.-M. ; Kuo, S.-Y.; Charlton, M.D.B.; Hsieh, T.-P.; Kuo, H.-C. | Nanomaterials | 5 | 6 | |
103 | 2017 | Identifying the electrocatalytic sites of nickel disulfide in alkaline hydrogen evolution reaction | Ma, Q.; Hu, C.; Liu, K.; Hung, S.-F.; Ou, D.; Chen, H.M. ; Fu, G.; Zheng, N. | Nano Energy | 159 | 154 | |
104 | 2017 | Progressive Design of Plasmonic Metal-Semiconductor Ensemble toward Regulated Charge Flow and Improved Vis-NIR-Driven Solar-to-Chemical Conversion | Han, C.; Quan, Q.; HAO MING CHEN ; Sun, Y. G.; Xu, Y. J. | Small | 94 | ||
105 | 2017 | In Situ Electrochemical Production of Ultrathin Nickel Nanosheets for Hydrogen Evolution Electrocatalysis | Hu, C. Y.; Ma, Q. Y.; Hung, S. F.; Chen, Z. N.; Ou, D. H.; Ren, B.; HAO MING CHEN ; Fu, G.; Zheng, N. F. | Chem | 196 | ||
106 | 2017 | Chemical distinctions between Stradivari’s maple and modern tonewood | HWAN-CHING TAI ; Guo-Chian Li; Shing-Jong Huang; Chang-Ruei Jhu; Jen-Hsuan Chung; Bo Y. Wang; Chia-Shuo Hsu; Brigitte Brandmair; Dai-Ting Chung; HAO MING CHEN ; Jerry Chun Chung Chan | Proceedings of the National Academy of Sciences | 31 | 31 | |
107 | 2017 | 二維奈米材料鑑定與光電及能源領域上之應用 | 林鼎盛; 陳浩銘 | 化學 | |||
108 | 2017 | Valence- and element-dependent water oxidation behaviors: in situ X-ray diffraction, absorption and electrochemical impedance spectroscopies | Hsu, C. S.; Suen, N. T.; Hsu, Y. Y.; Lin, H. Y.; Tung, C. W.; Liao, Y. F.; Chan, T. S.; Sheu, H. S.; Chend, S. Y.; HAO MING CHEN | Physical Chemistry Chemical Physics | |||
109 | 2017 | Mesoporous TiO <inf>2</inf> Embedded with a Uniform Distribution of CuO Exhibit Enhanced Charge Separation and Photocatalytic Efficiency | Liao, Y.-T.; Huang, Y.-Y.; Chen, H.M.; Komaguchi, K.; Hou, C.-H.; Henzie, J.; Yamauchi, Y.; Ide, Y.; HAO MING CHEN ; CHIA-HUNG HOU ; Wu K.C.-W. | ACS Applied Materials and Interfaces | 61 | 58 | |
110 | 2017 | Electrocatalysis for the oxygen evolution reaction: Recent development and future perspectives | Suen N.-T; Hung S.-F; Quan Q; Zhang N; Xu Y.-J; HAO MING CHEN | Chemical Society Reviews | 4429 | ||
111 | 2017 | In Situ Identification of Photo- and Moisture-Dependent Phase Evolution of Perovskite Solar Cells | Chen B.-A; Lin, J.-T.; Suen, N.-T.; Tsao, C.-W.; Chu, T.-C.; Hsu, Y.-Y.; Chan, T.-S.; Chan, Y.-T.; Yang, J.-S.; Chiu, C.-W. ; HAO MING CHEN ; YI-TSU CHAN ; Yang, J.-S. | ACS Energy Letters | 61 | 58 | |
112 | 2016 | Modulation of Crystal Surface and Lattice by Doping: Achieving Ultrafast Metal-Ion Insertion in Anatase TiO2 | Hsin-Yi Wang; Han-Yi Chen; Ying-Ya Hsu; Ulrich Stimming; HAO MING CHEN ; Bin Liu | ACS Applied Materials & Interfaces | 20 | ||
113 | 2016 | In situ morphological transformation and investigation of electrocatalytic properties of cobalt oxide nanostructures toward oxygen evolution | HAO MING CHEN | CrystEngComm | 18 | 19 | |
114 | 2016 | 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 | Hung, Sung-Fu et al.; HAO MING CHENet al. | Chemical Communications | 50 | ||
115 | 2016 | Iridium Oxide-Assisted Plasmon-Induced Hot Carriers: Improvement on Kinetics and Thermodynamics of Hot Carriers | Hung, Sung-Fu; Xiao, Fang-Xing; Hsu, Ying-Ya; Suen, Nian-Tzu; Yang, Hong-Bin; HAO MING CHEN ; Liu, Bin | Advanced Energy Materials | |||
116 | 2016 | In Operando Identification of Geometrical-Site-Dependent Water Oxidation Activity of Spinel Co3O4 | Wang, Hsin-Yi; Hung, Sung-Fu; Chen, Han-Yi; Chan, Ting-Shan; HAO MING CHEN ; Liu, Bin | Journal of the American Chemical Society | 713 | ||
117 | 2016 | Identification of catalytic sites for oxygen reduction and oxygen evolution in N-doped graphene materials: Development of highly efficient metal-free bifunctional electrocatalyst | Yang, H. B.; HAO MING CHENet al. | Science Advances | 1124 | 936 | |
118 | 2015 | Ni3+-Induced Formation of Active NiOOH on the Spinel Ni-Co Oxide Surface for Efficient Oxygen Evolution Reaction | Wang, Hsin-Yi; Hsu, Ying-Ya; Chen, Rong; Chan, Ting-Shan; HAO MING CHEN ; Liu, Bin | Advanced Energy Materials | |||
119 | 2015 | Heterojunction of Zinc Blende/Wurtzite in Zn1-xCdxS Solid Solution for Efficient Solar Hydrogen Generation: X-ray Absorption/Diffraction Approaches | Hsu, Ying-Ya; Suen, Nian-Tzu; Chang, Chung-Chieh; Hung, Sung-Fu; Chen, Chi-Liang; Chan, Ting-Shan; Dong, Chung-Li; Chan, Chih-Chieh; Chen, San-Yuan; HAO MING CHEN | ACS Applied Materials & Interfaces | 73 | ||
120 | 2015 | Light-Induced In Situ Transformation of Metal Clusters to Metal Nanocrystals for Photocatalysis | Xiao, Fang-Xing; Zeng, Zhiping; Hsu, Shao-Hui; Hung, Sung-Fu; HAO MING CHEN ; Liu, Bin | ACS Applied Materials & Interfaces | |||
121 | 2015 | Hierarchical Ni-Mo-S nanosheets on carbon fiber cloth: A flexible electrode for efficient hydrogen generation in neutral electrolyte | Miao J; Xiao F.-X; Bin Yang H; Khoo S.Y; Chen J; Fan Z; Hsu Y.-Y; HAO MING CHEN ; Zhang H; Liu B. | Science Advances | 408 | 406 | |
122 | 2015 | Reversible adapting layer produces robust single-crystal electrocatalyst for oxygen evolution | Tung, Ching-Wei et al.; Hsu, Ying-Ya; Shen, Yen-Ping; Zheng, Yixin; Chan, Ting-Shan; Sheu, Hwo-Shuenn; Cheng, Yuan-Chung ; HAO MING CHEN | Nature Communications | 343 | 364 | |
123 | 2014 | Stable Quantum Dot Photoelectrolysis Cell for Unassisted Visible Light Solar Water Splitting | Yang, Hong Bin; Miao, Jianwei; Hung, Sung-Fu; Huo, Fengwei; HAO MING CHEN ; Liu, Bin | ACS Nano | 157 | ||
124 | 2014 | Plasmonic photocatalyst for photodegradation with spinning optical disk reactor | Hsieh W.T; Chen Y.L; Chiang I.D; Kuo L.C; Tseng M.L; HAO MING CHEN ; Chen C.K; Huang H.J; RU-SHI LIU ; Tsai D.P. | JSAP-OSA Joint Symposia, JSAP 2014 | 0 | 0 | |
125 | 2014 | Probing the spatial organization of bacteriochlorophyll c by solid-state nuclear magnetic resonance | Luo, S.-C.; Khin, Y.; Huang, S.-J.; Yang, Y.; Hou, T.-Y.; Cheng, Y.-C.; Chen, H.M.; Chin, Y.-Y.; Chen, C.-T.; Lin, H.-J.; Tang, J.K.-H.; YUAN-CHUNG CHENG ; HAO MING CHEN | Biochemistry | 14 | 14 | |
126 | 2013 | Plasmonic ZnO/Ag Embedded Structures as Collecting Layers for Photogenerating Electrons in Solar Hydrogen Generation Photoelectrodes | RU-SHI LIU ; DING-WEI HUANG ; HAO MING CHEN | Small | |||
127 | 2013 | ZnO nanorod optical disk photocatalytic reactor for photodegradation of methyl orange | Chen, Y. L.; Kuo, L. C.; Tseng, M. L.; Chen, H. M.; Chen, C. K.; Huang, H. J.; Liu, R. S.; HAO MING CHEN ; RU-SHI LIU | Optics Express | 41 | 37 | |
128 | 2013 | Zinc oxide nanorod optical disk photocatalytic reactor for photodegradation | Chen Y.L; Chiang I.D; Kuo L.-C; Tseng M.L; HAO MING CHEN ; Chen C.-K; Huang H.J; RU-SHI LIU ; Tsai D.P. | Optics InfoBase Conference Papers | 0 | 0 | |
129 | 2013 | Targeting polymeric fluorescent nanodiamond-gold/silver multi-functional nanoparticles as a light-transforming hyperthermia reagent for cancer cells | Cheng, L. C.; HAO MING CHEN ; Lai, T. C.; Chan, Y. C.; RU-SHI LIU ; Sung, J. C.; Hsiao, M.; Chen, C. H.; Her, L. J.; Tsai, D. P. | Nanoscale | 50 | ||
130 | 2013 | Plasmon-enhanced near-infrared-active materials in photoelectrochemical water splitting | Chen, C. K.; HAO MING CHEN ; CHIH-JUNG CHEN ; RU-SHI LIU | Chemical Communications | 60 | ||
131 | 2013 | Shape and Particle Size Controlled for Water Splitting | Chen, Hao Ming ; Liu, Ru-Shi | 14 | 0 | ||
132 | 2013 | Large-Scale Synthesis of Transition-Metal-Doped TiO2 Nanowires with Controllable Overpotential | Liu, B.; HAO MING CHEN ; Liu, C.; rews, S. C.; Hahn, C.; Yang, P. D. | Journal of the American Chemical Society | 316 | 304 | |
133 | 2013 | A Fully Integrated Nanosystem of Semiconductor Nanowires for Direct Solar Water Splitting | Liu, C.; Tang, J. Y.; HAO MING CHEN ; Liu, B.; Yang, P. D. | Nano Letters | 483 | 459 | |
134 | 2012 | Fast Fabrication of a Ag Nanostructure Substrate Using the Femto-Second Laser for Broadband and Tunable Plasmonic Enhancements | RU-SHI LIU ; DING-WEI HUANG ; HAO MING CHEN | ACS Nano | 61 | ||
135 | 2012 | Plasmon Inducing Effects for Enhanced Photoelectrochemical Water Splitting: X-ray Absorption Approach to Electronic Structures | CHIH-JUNG CHEN ; RU-SHI LIU ; HAO MING CHEN. | Acs Nano | 293 | 287 | |
136 | 2012 | Nano-architecture and material designs for water splitting photoelectrodes | HAO MING CHEN ; Chen, C. K.; RU-SHI LIU ; Zhang, L.; Zhang, J. J.; Wilkinson, D. P. | Chemical Society Reviews | 455 | ||
137 | 2012 | Magnetically recyclable Fe@Co core-shell catalysts for dehydrogenation of sodium borohydride in fuel cells | Tsai, C. W.; HAO MING CHEN ; RU-SHI LIU ; Lee, J. F.; Chang, S. M.; Weng, B. J. | International Journal of Hydrogen Energy | |||
138 | 2011 | Ni@NiO Core-Shell Structure-Modified Nitrogen-Doped InTaO4 for Solar-Driven Highly Efficient CO2 Reduction to Methanol | Tsai, Chi-Wen; HAO MING CHEN ; RU-SHI LIU ; Asakura, Kiyotaka; Chan, Ting-Shan | Journal of Physical Chemistry C | 145 | ||
139 | 2011 | Carbon incorporated FeN/C electrocatalyst for oxygen reduction enhancement in direct methanol fuel cells: X-ray absorption approach to local structures | Tsai, Chi-Wen; HAO MING CHEN ; RU-SHI LIU ; Asakura, Kiyotaka; Zhang, Lei; Zhang, Jiujun; Lo, Man-Yin; Peng, Yu-Min | Electrochimica Acta | 23 | ||
140 | 2011 | An alternative cobalt oxide-supported platinum catalyst for efficient hydrolysis of sodium borohydride | Hung, Tai-Feng; Kuo, Heng-Chia; Tsai, Chi-Wen; HAO MING CHEN ; RU-SHI LIU ; Weng, Bing-Jhih; Lee, Jyh-Fu | Journal of Materials Chemistry | 40 | ||
141 | 2011 | Architecture of Metallic Nanostructures: Synthesis Strategy and Specific Applications | Chen, Hao Ming ; RU-SHI LIU | Journal of Physical Chemistry C | 142 | ||
142 | 2011 | A New Approach to Solar Hydrogen Production: a ZnO-ZnS Solid Solution Nanowire Array Photoanode | Chen, Hao Ming ; Chen, Chih Kai; RU-SHI LIU ; Wu, Ching-Chen; Chang, Wen-Sheng; Chen, Kuei-Hsien; Chan, Ting-Shan; Lee, Jyh-Fu; Tsai, Din Ping | Advanced Energy Materials | 82 | ||
143 | 2011 | Ni@NiO Core-Shell Structure-Modified Nitrogen-Doped InTaO(4) for Solar-Driven Highly Efficient CO(2) Reduction to Methanol | Tsai, Chi-Wen; Chen, Hao Ming ; Liu, Ru-Shi ; Asakura, Kiyotaka; Chan, Ting-Shan | JOURNAL OF PHYSICAL CHEMISTRY C | |||
144 | 2011 | Multi-Bandgap-Sensitized ZnO Nanorod Photoelectrode Arrays for Water Splitting: An X-ray Absorption Spectroscopy Approach for the Electronic Evolution under Solar Illumination | Chen, Hao Ming ; Chen, Chih Kai; Lin, Chun Che; RU-SHI LIU ; Yang, Heesun; Chang, Wen-Sheng; Chen, Kuei-Hsien; Chan, Ting-Shan; Lee, Jyh-Fu; Tsai, Din Ping | Journal of Physical Chemistry C | 68 | 67 | |
145 | 2009 | A Versatile Route to the Controlled Synthesis of Gold Nanostructures | |HAO MING CHEN ; RU-SHI LIU ; Tsai, D. P. | Crystal Growth & Design | |||
146 | 2009 | Biosensing, Cytotoxicity, and Cellular Uptake Studies of Surface-Modified Gold Nanorods | Parab, Harshala J.; Chen, Hao Ming ; Lai, Tsung-Ching; Huang, Jing Hong; Chen, Po Hsun; RU-SHI LIU ; Hsiao, Michael; Chen, Chung-Hsuan; Tsai, Din-Ping; Hwu, Yeu-Kuang | Journal of Physical Chemistry C | |||
147 | 2008 | Investigation of Structural Aspects of Pt-LiCoO2 During Catalytic Hydrolysis of Sodium Borohydride Using X-ray Absorption | Liu, R. S.; Lei, H. J.; Bagkar, N. C.; Kuo, H. T.; Chen, H. M.; Lee, J. -F.; Chuang, H. J.; Weng, S. M.; Chaung, B. J.; LiuRS ; ChenHM | The Journal of Physical Chemistry B | |||
148 | 2008 | Investigation on mechanism of catalysis by Pt-LiCoO2 for hydrolysis of sodium borohydride using X-ray absorption | RU-SHI LIU ; Lai, H. C.; Bagkar, N. C.; Kuo, H. T.; HAO MING CHEN ; Lee, J. F.; Chung, H. J.; Chang, S. M.; Weng, B. J. | Journal of Physical Chemistry B | 24 | ||
149 | 2008 | Hollow platinum spheres with nano-channels: Synthesis and enhanced catalysis for oxygen reduction | Chen, Hao Ming ; RU-SHI LIU ; Lo, Man-Yin; Chang, Sung-Chun; Tsai, Li-Duan; Peng, Yu-Min; Lee, Jyh-Fu | Journal of Physical Chemistry C | 227 | 221 | |
150 | 2007 | Controlling optical properties of aluminum oxide using electrochemical deposition | HAO MING CHEN ; Hsin, Chia Fen; RU-SHI LIU ; Hu, Shu-Fen; Huang, Chao-Yuan | Journal of the Electrochemical Society | 34 | ||
151 | 2007 | Controlling length of gold nanowires with large-scale: X-ray absorption spectroscopy approaches to the growth process | Chen, Hao Ming ; RU-SHI LIU ; Asakura, Kiyotaka; Jang, Ling-Yun; Lee, Jyh-Fu | Journal of Physical Chemistry C | 44 | 41 | |
152 | 2007 | Synthesis and Characterization of Multi-Pod-Shaped Gold/Silver Nanostructures | Chen, Hao Ming ; Hsin, Chia Fen; Liu, Ru-Shi ; Lee, Jyh-Fu; Jang, Ling-Yun | The Journal of Physical Chemistry C | 78 | 71 | |
153 | 2006 | Generating isotropic superparamagnetic interconnectivity for the two-dimensional organization of nanostructured building blocks | HAO MING CHEN ; RU-SHI LIU ; Li, H. L.; Zeng, H. C. | Angewandte Chemie-International Edition | |||
154 | 2006 | Characterization of core-shell type and alloy Ag/Au bimetallic clusters by using extended X-ray absorption fine structure spectroscopy | HAO MING CHEN ; RU-SHI LIU ; Jang, L. Y.; Lee, J. F.; Hu, S. F. | Chemical Physics Letters | |||
155 | 2006 | Local structural characterization of gold nanowires using extended X-ray absorption fine structure spectroscopy | HAO MING CHEN ; Lai, H. C.; RU-SHI LIU ; Jang, L. Y. | Chemical Physics Letters | |||
156 | 2006 | Local structural characterization of Au/Pt bimetallic nanoparticles | HAO MING CHEN ; Peng, H. C.; RU-SHI LIU ; Hu, S. F.; Jang, L. Y. | Chemical Physics Letters | |||
157 | 2006 | Morphology and surface plasma changes of Au-Pt bimetallic nanoparticles | HAO MING CHEN ; Peng, H. C.; RU-SHI LIU ; Hu, S. F.; Sheu, H. S. | Journal of Nanoscience and Nanotechnology | |||
158 | 2006 | Controlling Length and Monitoring Growth of Gold Nanorods | 陳浩銘 ; 劉如熹 | Journal of the Chinese Chemical Society | 2 | 2 | |
159 | 2006 | Fabrication of Nanorattles with Passive Shell | Chen, Hao Ming ; Liu, Ru-Shi ; Asakura, Kiyotaka; Lee, Jyh-Fu; Jang, Ling-Yun; Hu, Shu-Fen | The Journal of Physical Chemistry B | 39 | 34 | |
160 | 2005 | Controlling the Length and Shape of Gold Nanorods | Chen, Hao Ming ; Peng, Hsin-Chieh; Liu, Ru-Shi ; Asakura, Kiyotaka; Lee, Chien-Liang; Lee, Jyh-Fu; Hu, Shu-Fen | The Journal of Physical Chemistry B | 79 | 69 |