反饋

章福祥

中國科學院大連化學物理研究所研究員、博導，“太陽能制儲氫材料與催化研究組”組長；國家“傑青”，英國皇家化學會會士，“百千萬人才工程”國家級人選，獲得“具有突出貢獻中青年專家”稱號，享受國務院特殊津貼。1995-2004年於南開大學攻讀學士學位和博士學位，隨後留校任教，2007 -2011年於巴黎第六大學和東京大學先後做博士後研究，2011年10月回國。長期從事太陽能光化學轉化研究，在光催化、電催化、材料精準合成、原位表徵與催化反應機理研究等方向取得了系列創新性研究成果：設計合成了系列具有寬範圍可見光捕光、高效催化水氧化、選擇性催化二氧化碳還原、合成氨等功能的新材料，報道了首例多相催化水氧化TOF值可媲美自然光合PSII系統的人工水氧化催化劑；發展了系列材料精準合成和界面調控的新方法和新策略，取得了高效多相水氧化、催化二氧化碳選擇性還原、合成氨等反應機理新認識；組裝了系列可見光催化全分解水制氫的粉末懸浮體系，不僅大幅拓寬了可見光的利用範圍，而且多次刷新並保持了粉末懸浮體系可見光催化全分解水制氫的表觀量子效率國際記錄。已在 Nat. Catal., Nat. Commun., Joule, J. Am. Chem. Soc., Angew. Chem. Int. Ed. 和 Adv. Mater. 等期刊發表系列高水平學術論文。主持承擔國家基金委傑出青年基金，優秀青年基金，重點項目；科技部重點研發專項；中國科學院“B類”先導等項目。^[1]

中文名: 章福祥
國籍: 中國
民族: 漢
出生地: 江西

畢業院校: 南開大學
學位/學歷: 博士
專業方向: 物理化學/材料物理與化學
工作單位: 中國科學院大連化學物理研究所

章福祥人物經歷

章福祥教育經歷

1999.9–2004.6，南開大學，物理化學，博士

1995.9–1999.6，南開大學，化學，學士

章福祥工作經歷

2013.12 - 至今，中國科學院大連化學物理研究所，催化基礎國家重點實驗室，研究員

2011.10 - 2013.11，中國科學院大連化學物理研究所，催化基礎國家重點實驗室，副研究員

2010.7 - 2011.9，東京大學，化學系統工程系，助理教授

2005.12 - 2007.8，南開大學，化學學院，副教授

2004.7-2005.12，南開大學，化學學院，講師

2008.7 - 2010.6，東京大學，博士後

2007.9 - 2008.6，巴黎第六大學，博士後

章福祥研究方向

基礎研究：

（1）太陽能光化學轉化；

（2）光/電催化制氫、合成氨或雙氧水；

（3）光/電催化轉化CO2或甲烷至化學品/燃料；

（4）光/電催化關鍵新材料的智能開發與精準合成；

（5）光/電催化過程原位表徵與催化反應機制研究等。^[2]

應用開發：

（1）電解水規模化制綠氫；

（2）甲烷、硫化氫等資源化利用；

（3）催化轉化CO2制化學品和燃料；

（4）雙氧水的室温規模化綠色生產等。^[2]

章福祥社會兼職

受邀擔任J. Energy Chem.副主編，Sci. China Chem., Nat. Sci. Rev., Renewable和eScience等期刊編委；受邀擔任中國能源學會可再生能源專家委員會副主任委員，中國感光學會光催化青年專業委員會副主任委員，中國感光學會光催化專業委員會委員以及一些科研單位、學會的學術委員會委員等。^[1]

章福祥代表性論文

1	Efficient overall water splitting of a suspended photocatalyst boosted by metal-support interaction. Yu Qi, Boyang Zhang, Guanhua Zhang, Zhaoke Zheng, Tengfeng Xie, Shanshan Chen, Guijun Ma, Can Li, Kazunari Domen, Fuxiang Zhang. Joule*, 2024, 8, 193-203.
2	One-dimensional nanotube of a metal–organic framework boosts charge separation and photocatalytic hydrogen evolution from water: synthesis and underlying understanding. Lifang Liu, Yejun Xiao, Xiangyang Guo, Wenjun Fan, Nengcong Yang, Chunmei Jia, Shengye Jin, Fuxiang Zhang. EES Catalysis*, 2024, DOI: 10.1039/d4ey00007b.
3	Single Atom Iridium Decorated Nickel Alloys Supported on Segregated MoO₂ for Alkaline Water Electrolysis. Bin Wang, Jiangnan Li, Dongze Li, Junyuan Xu, Shoujie Liu, Qike Jiang, Yashi Zhang, Zhiyao Duan, Fuxiang Zhang. Advanced Materials, 2023, 2305437.
4	Insight into the Key Restriction of BiVO₄ Photoanodes Prepared by Pyrolysis Method for Scalable Preparation. Nengcong Yang, Sainan Zhang, Yejun Xiao, Yu Qi, Yunfeng Bao, Peng Xu, Shengye Jin, Fuxiang Zhang. Angewandte Chemie* International Edition, 2023, 62, e202308729.
5	Layered β-ZrNBr nitro-halide as multifunctional photocatalyst for water splitting and CO₂reduction. Yunfeng Bao, Shiwen Du, Kengo Shibata, Xiangyang Guo, Yoshinobu Kamakura, Zhaochi Feng, Yanqiang Huang, Osamu Ishitani, Kazuhiko Maeda, Fuxiang Zhang*. Angewandte Chemie International Edition*, 2023, 62, e202214273.
6	Single Atom Bi Decorated Copper Alloy Enables C-C Coupling for Electrocatalytic Reduction of CO₂ into C₂₊ Products. Yucheng Cao, Suya Chen, Shuowen Bo, Wenjun Fan, Jiangnan Li, Chunmei Jia, Zhen Zhou, Qinghua Liu, Lirong Zheng, Fuxiang Zhang. Angewandte Chemie International Edition*, 2023, e202303048.
7	Saturated Ti-coordinated {001} facets-dependent photocatalytic water reduction over NH2-MIL-125(Ti) sheets: Observation and unraveling of facets effect. Lifang Liu, Shiwen Du, Yejun Xiao, Xiangyang Guo, Shengye Jin, Guosheng Shao, Fuxiang Zhang. Applied Catalysis B: Environmental*, 2023, 338, 123094.
8	Revealing the effects of transition metal doping on CoSe cocatalyst for enhancing photocatalytic H₂ production. Shiwen Du, Shengqi Lin, Kuankuan Ren, Chunhe Li, Fuxiang Zhang*. Applied Catalysis B: Environmental*, 2023, 328, 122503.
9	Rational design of heterogenized molecular phthalocyanine hybrid single-atom electrocatalyst towards two-electron oxygen reduction. Wenjun Fan, Zhiyao Duan, Wei Liu, Rashid Mehmood, Jiating Qu, Yucheng Cao, Xiangyang Guo, Jun Zhong，Fuxiang Zhang*. Nature Communications*, 2023, 14, 1426.

10	Metallic Powder Promotes Nitridation Kinetics for Facile Synthesis of (oxy)nitride Photocatalysts. Yunfeng Bao, Hai Zou, Shiwen Du, Xueshang Xin, Shuowen Wang, Guosheng Shao, *Fuxiang Zhang.** Advanced Materials, 2023, 2302276.
11	Confirming High-Valent Iron as Highly Active Species of Water Oxidation on the Fe, V-Coupled Bimetallic Electrocatalyst: In Situ Analysis of X-ray Absorption and Mössbauer Spectroscopy. Rashid Mehmood, Wenjun Fan, Xu Hu, Jiangnan Li, Peijia Liu, Yashi Zhang, Zhen Zhou, Junhu Wang, Min Liu, Fuxiang Zhang*. Journal of the American Chemical Society, 2023, 145, 22, 12206-12213.
12	Water-Stable Nickel Metal−Organic Framework Nanobelts for Cocatalyst-Free Photocatalytic Water Splitting to Produce Hydrogen. Lifang Liu; Shiwen Du; Xiangyang Guo; Yejun Xiao; Zixin Yin; Nengcong Yang; Yunfeng Bao; Xunjin Zhu; Shengye Ji; Zhaochi Feng; Fuxiang Zhang; Journal of the American Chemical Society*, 2022, 144, 6, 2747-2754.
13	Main Descriptors to correlate structures with performances of electrocatalysts. Bin Wang; Fuxiang Zhang; Angewandte* Chemie International Edition, 2022, 61, e202111026.
14	Unraveling of cocatalysts photodeposited selectively on facets of BiVO₄ to boost solar water splitting. Yu Qi; Jiangwei Zhang; Yuan Kong; Yue Zhao; Shanshan Chen; Deng Li; Wei Liu; Yifan Chen; Tengfeng Xie; Junyan Cui; Can Li; Kazunari Domen; Fuxiang Zhang*; Nature Communications*, 2022, 13: 484.
15	Synthesis of a Visible-Light-Responsive Perovskite SmTiO₂N Bifunctional Photocatalyst via an Evaporation-Assisted Layered-Precursor Strategy. Yunfeng Bao; Shiwen Du; Yu Qi; Gao Li; Peng Zhang; Guosheng Shao; Fuxiang Zhang; Advanced Materials*, 2021, 33, 2101883.
16	Nanostructure Engineering and Modulation of (Oxy)nitrides for Application in Visible-Light-Driven Water Splitting. Beibei Dong; Junyan Cui; Yu Qi; Fuxiang Zhang; Advanced Materials,* 2021, 33, 2004697.
17	Band gap engineering of metal-organic frameworks for solar fuel productions. Xiangyang Guo, Lifang Liu, Yu Xiao, Yu Qi, Chunying Duan, Fuxiang Zhang, Coordination Chemistry Reviews*, 2021, 435, 213785.
18	Artificial Photosynthesis near the Biological Limit, Artificial Photosynthesis near the Biological Limit. Yu Qi; Fuxiang Zhang; Joule*, 2020, 4, 1364-1366.
19	Heterostructure of 1D Ta3N5 nanorod/BaTaO2N nanoparticle fabricated by a one-step ammonia thermal route for remarkably promoted solar hydrogen production. Beibei Dong, Junyan Cui, Yuying Gao, Yu Qi, Fuxiang Zhang, Can Li. Advanced Materials, 2019, 31, 180818.
20	One-pot synthesis of BaMg1/3Ta2/3O3−xNy/Ta3N5 heterostructures as H2-evolving photocatalysts for construction of visible-light-driven Z-scheme overall water splitting. Junyan Cui, Yu Qi, Beibei Dong, Linchao Mu, Qian Ding, Gang Liu, Mingjun Jia, Fuxiang Zhang, Can Li. Applied Catalysis B: Environmental, 2019, 241, 1-7. ^[3]

參考資料

1. 章福祥．章福祥研究組[引用日期2024-04-15]
2. About Us ．章福祥研究組[引用日期2020-01-20]
3. Publications ．太陽能制儲氫材料與催化研究組[引用日期2024-04-15]

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1 人物經歷: 1.1 教育經歷; 1.2 工作經歷
2 研究方向
3 社會兼職
4 代表性論文

章福祥