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  • 教师英文名称: Yujie Xiong
  • 教师拼音名称: Yujie Xiong
  • 电子邮箱: 2e3c98d1103d93a29e780b784628f2ba2ee0acf573948ee6b926c43a18c2dcbedb727330902d909f3b0e9c9487917bd0227f85ee5c0641021e9e33a0c59a949babea5b671b041d49dc45c59265d747a4d4e076ffb8915e7833b4bb839ec4ae2b5ead5b5c263a453b81126bbd2b9621b577d6d2348eb1142e02eed821988876db
  • 联系方式: 0551-63606657
  • 熊宇杰,中国科学技术大学讲席教授、博士生导师,安徽师范大学党委常委、副校长。1996年进入中国科学技术大学少年班系学习,2000年获化学物理学士学位,2004年获无机化学博士学位,师从谢毅院士。2004至2011年先后在美国华盛顿大学(西雅图)、伊利诺伊大学香槟分校、华盛顿大学圣路易斯分校工作。2011年辞去美国国家纳米技术基础设施组织(NSF-NNIN)的首席研究员(Principal Scientist)职位,回到中国科学技术大学任教授,建立独立研究团队,同年入选首批国家高层次青年人才计划和中国科学院人才计划。2016年获批中国科学院“等离激元催化”创新交叉团队,入选科技部 中青年科技创新领军人才 。2017年获国家杰出青年科学基金资助,入选英国皇家化学会 Fellow 。2018年获聘教育部长江学者特聘教授,入选国家万人计划科技创新领军人才。2022年当选东盟工程与技术科学院 Foreign Fellow 、新加坡国家化学会Fellow。现任ACS Materials Letters副主编,Chemical Society Reviews、Chemistry of Materials等期刊顾问委员或编委。

    主要从事“ 多场多相催化化学”研究,探索 多场耦合和多相流动条件下的催化机制及应用。创制了表界面结构可控的复合或杂化催化材料,实现了催化反应的光、电、磁、热等多物理场调控,发展了分子转化过程的能量耦合机制;设计了可模块化定制的仿生催化器件,实现了催化体系的传质和传能过程强化,发展了基于多相流动控制的应用系统。 已发表250余篇通讯作者论文,其中70余篇发表在综合性期刊Nature Communications、Proceedings of the National Academy of Sciences of the United States of America、National Science Review和化学及材料科学三大期刊Journal of the American Chemical Society、Angewante Chemie、Advanced Materials。论文总引用 41,000余次(H指数102), 入选科睿唯安全球高被引科学家榜单( 化学、 交叉科学)。2012年获国家自然科学二等奖(第三完成人),2014-2016和2018年四次获中国科学院优秀导师奖,2014年获香港求是科技基金会杰出青年学者奖,2015年获中美化学与化学生物学教授协会杰出教授奖,2019年获英国皇家化学会Chem Soc Rev开拓研究者讲座奖,2021年获安徽省自然科学一等奖(第一完成人)。

    Research ID: G-3203-2010

    热忱期待各位青年才俊的加盟( 诚聘博士后

    人才培养:

    已培养10名博士后、33名博士毕业生、10名硕士毕业生和4名访问学者;其中4人获得国家优秀青年科学基金、国家优秀青年科学基金(海外)、外国优秀青年学者研究基金、中国科学院人才计划资助,1人获得安徽省杰出青年科学基金资助,2人入选中国科学院青年创新促进会,1人入选中国化学会青年人才托举工程,1人获欧莱雅—联合国教科文组织世界最具潜力女科学家计划、中国未来女科学家计划,2人获中国科学院优秀博士论文,2人获中国科学院院长特别奖,15人获研究生国家奖学金。已指导70余名本科生毕业论文;其中3人获中国科学技术大学郭沫若奖学金。

    教学情况:

    本科生基础课程《无机化学》,2014-2021年

    本科生新生研讨课《科学与社会》,2013-2015年,2021年至今

    研究生专业课程《材料与器件的微纳制造》,2013年至今

    奖励荣誉:

    Foreign Fellow of the ASEAN Academy of Engineering and Technology (FAAET(F)),2022年

    Fellow of the Singapore National Institute of Chemistry (FSNIC),2022年

    安徽省自然科学一等奖(第一完成人),2021年

    Young Faculty Achievement Award,University of Science and Technology of China Alumni Foundation,2020年

    “教育部基础学科拔尖学生培养计划”优秀导师奖,2020年

    Chem Soc Rev Pioneering Investigator Lectureship Award,Royal Society of Chemistry,2019年

    Nano Research Young Innovator Award in NanoEnergy,2019年

    SCIENCE CHINA Materials Best Paper Award,2019年

    教育部“长江学者奖励计划”特聘教授,2018年

    第四批国家“万人计划”科技创新领军人才,2018年

    中国科学院优秀导师奖,2018年

    Nano Research Top Papers Award,2018年

    Distinguished Lectureship Award,Chemical Society of Japan,2018年

    国家杰出青年科学基金获得者,2017年

    Nano Research Top Papers Award,2017年

    Fellow of the Royal Society of Chemistry (FRSC),2017年

    科技部中青年科技创新领军人才,2016年

    中国科学院朱李月华优秀教师奖,2016年

    中国科学院优秀导师奖,2016年

    第八届安徽省自然科学优秀学术论文一等奖,2016年

    Biomatik Distinguished Faculty Award,Chinese-American Chemistry & Chemical Biology Professors Association,2015年

    中国青年科技工作者协会“最美青年科技工作者”称号,2015年

    中国科学院优秀导师奖,2015年

    香港求是科技基金会杰出青年学者奖,2014年

    Young Faculty Career Award,University of Science and Technology of China Alumni Foundation,2014年

    首届中国化学会纳米化学新锐奖,2014年

    中国科学院优秀导师奖,2014年

    中国化学会青年化学奖,2013年

    国家自然科学二等奖(第三完成人),2012年

    首批国家高层次青年人才计划,2011年

    中国科学院人才计划,2011年

    全国百篇优秀博士学位论文提名奖,2006年

    中国科学院优秀博士学位论文奖,2005年

    学术兼职:

    中国可再生能源学会光化学专业委员会副主任

    中国感光学会光催化专业委员会副主任

    中国航天先进材料创新联盟理事

    中国科学技术出版社暨科学普及出版社科技/科普专家

    中国化学会青年化学工作者委员会副主任(2018-2022)

    中国材料研究学会超材料分会常务理事(2018-2022)

    ACS Materials Letters,Associate Editor

    Chemical Society Reviews, Advisory Board Member

    Chemistry of Materials,Editorial Advisory Board Member

    Nanoscale,Advisory Board Member

    Nanoscale Advances,Advisory Board Member

    ChemNanoMat,International Advisory Board Member

    Chinese Chemical Letters,Editorial Board Member

    Journal of Materials Science,Editorial Board Member

    eScience,Editorial Board Member

    Nano Research Energy,Editorial Board Member

    PhotoMat, Editorial Board Member

    Science for Energy and Environment, Editorial Board Member

    Progress in Natural Science: Materials International,Editorial Board Member

    《中国科学技术大学学报》化学学科主编

    《化学学报》(Acta Chimica Sinica)编委

    《无机盐工业》编委

    MRS Renewable Energy Award,Committee Member

    主持项目:

    国家自然科学基金委员会 区域创新发展联合基金重点支持项目(2024-2027)

    国家自然科学基金委员会重点项目(2023-2027)

    国家自然科学基金 委员会 国际(地区)合作与交流项目(2023-2025)

    国家 自然科学基金委员会 杰出青年科学基金项目(2018-2022)

    国家自然科学基金委员会大科学装置联合基金项目(2016-2018)

    国家自然科学基金委员会面上项目(2015-2018)

    国家自然科学基金委员会重大研究计划培育项目( 2012-2014 2020-2022)

    国家自然科学基金委员会青年科学基金项目(2012-2014)

    科技部国家重点研发计划专项项目课题(2017-2022)

    中国科学院B类先导科技专项培育项目课题(2021-2022)

    中国科学院创新交叉团队(2017-2020)

    中国科学院前沿科学重点研究项目(2016-2020)

    霍英东教育基金会青年教师基金基础性研究课题(2011-2014)

    代表论文:

    2011年回国独立工作以来,发表250余篇通讯作者论文,包括国际高水平期刊Nat. Commun.(17篇)、PNAS (1篇)、 J. Am. Chem. Soc.(19篇)、Angew. Chem.(24篇)、Adv. Mater.(16篇)、Chem(2篇)、Joule(1篇)、Chem. Soc. Rev.(4篇)、Chem. Rev.(1篇)、Acc. Mater. Res.(1篇)和中国高水平期刊Natl. Sic. Rev.(2篇)、Sci. Bull.(2篇)、Research(3篇)。

    1. Surface Facet of Palladium Nanocrystals: a Key Parameter to the Activation of Molecular Oxygen for Organic Catalysis and Cancer Treatment
    Long, R.; Mao, K.; Ye, X.; Yan, W.; Huang, Y.; Wang, J.; Fu, Y.; Wang, X.; Wu, X.; Xie, Y.; Xiong, Y.* J. Am. Chem. Soc. 2013 , 135 , 3200-3207.

    2. Controllably Interfacing with Metal: A Strategy for Enhancing CO Oxidation on Oxide Catalysts by Surface Polarization
    Bai, Y.; Zhang, W.; Zhang, Z.; Zhou, J.; Wang, X.; Wang, C.; Huang, W.*; Jiang, J.;* Xiong, Y.* J. Am. Chem. Soc. 2014 , 136 , 14650-14653.

    3. Tunable Oxygen Activation for Catalytic Organic Oxidation: Schottky Junction versus Plasmonic Effect
    Long, R.; Mao, K.; Gong, M.; Zhou, S.; Hu, J.; Zhi, M.; You, Y.; Bai, S.; Jiang, J.; Zhang, Q.;* Wu, X.;* Xiong, Y.* Angew. Chem. Int. Ed. 2014 , 53 , 3205-3209.

    4. Designing p-Type Semiconductor-Metal Hybrid Structures for Improved Photocatalysis
    Wang, L.; Ge, J.; Wang, A.; Deng, M.; Wang, X.; Bai, S.; Li, R.; Jiang, J.;* Zhang, Q.;* Luo, Y.; Xiong, Y.* Angew. Chem. Int. Ed. 2014 , 53 , 5107-5111.

    5. Surface Polarization Matters: Enhancing the Hydrogen Evolution Reaction by Shrinking Pt Shells in Pt-Pd-Graphene Stack Structures
    Bai, S.; Wang, C.; Deng, M.; Gong, M.; Bai, Y.; Jiang, J.; Xiong, Y.* Angew. Chem. Int. Ed. 2014 , 53 , 12120-12124.

    6. Integration of Inorganic Semiconductor with MOF: A Platform for Enhanced Gaseous Photocatalytic Reactions
    Li, R.; Hu, J.; Deng, M.; Wang, H.; Wang, X.; Hu, Y.; Jiang, H. L.; Jiang, J.;* Zhang, Q.;* Xie, Y.; Xiong, Y.* Adv. Mater. 2014 , 26 , 4783-4788.

    7. A Unique Semiconductor-Metal-Graphene Stack Design to Harness Charge Flow for Photocatalysis
    Bai, S.; Ge, J.; Wang, L.; Gong, M.; Deng, M.; Kong, Q.; Song, L.; Jiang, J.;* Zhang, Q.;* Luo, Y.; Xie, Y.; Xiong, Y.* Adv. Mater. 2014 , 26 , 5689-5695.

    8. Oxidative Etching for Controlled Synthesis of Metal Nanocrystals: Atomic Addition and Subtraction
    Long, R.; Zhou, S.; Wiley, B. J.;* Xiong, Y.* Chem. Soc. Rev. 2014 , 43 , 6288-6310.

    9. Efficiently Coupling Solar Energy into Catalytic Hydrogenation by Well-Designed Pd Nanostructures
    Long, R.; Rao, Z.; Mao, K.; Li, Y.; Zhang, C.; Liu, Q.; Wang, C.; Li, Z. Y.; Wu, X.; Xiong, Y.* Angew. Chem. Int. Ed. 2015 , 54 , 2425-2430.

    10. The Nature of Photocatalytic “Water Splitting” on Silicon Nanowires
    Liu, D.; Li, L.; Gao, Y.; Wang, C.; Jiang, J.; Xiong, Y.* Angew. Chem. Int. Ed. 2015 , 54 , 2980-2985.

    11. Platinum Multicubes Prepared by Ni 2+ -Mediated Shape Evolution Exhibit High Electrocatalytic Activity for Oxygen Reduction
    Ma, L.; Wang, C.; Xia, B. Y.; Mao, K.; He, J.; Wu, X.; Xiong, Y.;* Lou, X. W.* Angew. Chem. Int. Ed. 2015 , 54 , 5666-5671.

    12. Boosting Photocatalytic Water Splitting: Interfacial Charge Polarization in Atomically Controlled Core-shell Co-catalyst
    Bai, S.; Yang, L.; Wang, C.; Lin, Y.; Lu, J.; Jiang, J.; Xiong, Y.* Angew. Chem. Int. Ed. 2015 , 54 , 14810-14814.

    13. Toward Enhanced Photocatalytic Oxygen Evolution: Synergetic Utilization of Plasmonic Effect and Schottky Junction via Interfacing Facet Selection
    Bai, S.; Li, X.; Kong, Q.; Long, R.; Wang, C.; Jiang, J.; Xiong, Y.* Adv. Mater. 2015 , 27 , 3444-3452.

    14. From Bimetallic Metal-Organic Framework to Porous Carbon: High Surface Area and Multicomponent Active Dopants for Excellent Electrocatalysis
    Chen, Y. Z.; Wang, C.; Wu, Z. Y.; Xiong, Y.;* Xu, Q.; Yu, S. H.; Jiang, H. L.* Adv. Mater. 2015 , 27 , 5010-5016.

    15. A New Cubic Phase for NaYF 4 Host Matrix Offering High Upconversion Luminescence Efficiency
    Wang, L.; Li, X.; Li, Z.; Chu, W.; Li, R.; Lin, K.; Qian, H.; Wang, Y.; Wu, C.; Li, J.; Tu, D.; Zhang, Q.; Song, L.; Jiang, J.*; Chen, X.; Luo, Y.; Xie, Y.; Xiong, Y.* Adv. Mater. 2015 , 27 , 5528-5533.

    16. Palladium-Based Nanomaterials: A Platform to Produce Reactive Oxygen Species for Catalyzing Oxidation
    Long, R.; Huang, H.; Li, Y.; Song, L.; Xiong, Y.* Adv. Mater. 2015 , 27 , 7025-7042.

    17. Steering Charge Kinetics in Photocatalysis: Intersection of Materials Syntheses, Characterization Techniques and Theoretical Simulations
    Bai, S.; Jiang, J.; Zhang, Q.; Xiong, Y.* Chem. Soc. Rev. 2015 , 44 , 2893-2939.

    18. Unraveling Surface Plasmon Decay in Core-Shell Nanostructures toward Broadband Light-Driven Catalytic Organic Synthesis
    Huang, H.; Zhang, L.; Lv, Z.; Long, R.; Zhang, C.; Lin, Y.; Wei, K.; Wang, C.; Chen, L.; Li, Z. Y.; Zhang, Q.;* Luo, Y.; Xiong, Y.* J. Am. Chem. Soc. 2016 , 138 , 6822-6828.

    19. Oxide Defect Engineering Enables to Couple Solar Energy into Oxygen Activation
    Zhang, N.; Li, X.; Ye, H.; Chen, S.; Ju, H.; Liu, D.; Lin, Y.; Ye, W.; Wang, C.; Xu, Q.; Zhu, J.; Song, L.; Jiang, J.;* Xiong, Y.* J. Am. Chem. Soc. 2016 , 138 , 8928-8935.

    20. Flexible Near-Infrared Photovoltaic Devices Based on Plasmonic Hot Electron Injection into Silicon Nanowire Arrays
    Liu, D.; Yang, D.; Gao, Y.; Ma, J.; Long, R.; Wang, C.; Xiong, Y.* Angew. Chem. Int. Ed. 2016 , 55 , 4577-4581.

    21. Trimetallic TriStar Nanostructures: Tuning Electronic and Surface Structures for Enhanced Electrocatalytic Hydrogen Evolution
    Du, N.; Wang, C.; Wang, X.; Lin, Y.; Jiang, J.; Xiong, Y.* Adv. Mater. 2016 , 28 , 2077-2084.

    22. Implementing Metal-to-Ligand Charge Transfer in Organic Semiconductor for Improved Visible-Near-Infrared Photocatalysis
    Li, Y.; Wang, Z.; Xia, T.; Ju, H.; Zhang, K.; Long, R.; Xu, Q.; Wang, C.; Song, L.; Zhu, J.; Jiang, J.; Xiong, Y.* Adv. Mater. 2016 , 28 , 6959-6965.

    23. Isolation of Cu Atoms in Pd Lattice: Forming Highly Selective Sites for Photocatalytic Conversion of CO 2 to CH 4
    Long, R.; Li, Y.; Liu, Y.; Chen, S.; Zheng, X.; Gao, C.; He, C.; Chen, N.; Qi, Z.; Song, L.; Jiang, J.; Zhu, J.; Xiong, Y.* J. Am. Chem. Soc. 2017 , 139 , 4486-4492.

    24. Noble-Metal-Free Janus-like Structures by Cation Exchange for Z-Scheme Photocatalytic Water Splitting under Broadband Light Irradiation
    Yuan, Q.; Liu, D.; Zhang, N.; Ye, W.; Ju, H.; Shi, L.; Long, R.; Zhu, J.; Xiong, Y.* Angew. Chem. Int. Ed. 2017 , 56 , 4206-4210.

    25. Amorphous Metallic NiFeP: A Conductive Bulk Material Achieving High Activity for Oxygen Evolution Reaction in both Alkaline and Acidic Media
    Hu, F.;* Zhu, S.; Chen, S.; Li, Y.; Ma, L.; Wu, T.; Zhang, Y.; Wang, C.; Liu, C.; Yang, X.; Song, L.; Yang, X. W.;* Xiong, Y.* Adv. Mater. 2017 , 29 , 1606570.

    26. Coordination Chemistry in the Design of Heterogeneous Photocatalysts
    Gao, C.; Wang, J.; Xu, H.; Xiong, Y.* Chem. Soc. Rev. 2017 , 46 , 2799-2823.

    27. Refining Defect States in W 18 O 49 by Mo Doping: A Strategy for Tuning N 2 Activation towards Solar-Driven Nitrogen Fixation
    Zhang, N.; Jalil, A.; Wu, D.; Chen, S.; Liu, Y.; Gao, C.;* Ye, W.; Qi, Z.; Ju, H.; Wang, C.; Wu, X.;* Song, L.; Zhu, J.; Xiong, Y.* J. Am. Chem. Soc. 2018 , 140 , 9434–9443.

    28. Turning Au Nanoclusters Catalytically Active for Visible-Light-Driven CO 2 Reduction through Bridging Ligands
    Cui, X.; Wang, J.; Liu, B.; Ling, S.; Long, R.; Xiong, Y.* J. Am. Chem. Soc. 2018 , 140 , 16514-16520.

    29. Van der Waals Heterostructures Stacked by Ultrathin Polymer Nanosheets for Efficient Z-Scheme Overall Water Splitting
    Wang, L.; Zheng, X.; Chen, L.; Xiong, Y.;* Xu, H.* Angew. Chem. Int. Ed. 2018 , 57 , 3454-3458.

    30. Enabling Visible-Light-Driven Selective CO 2 Reduction by Doping Quantum Dots: Trapping Electrons and Suppressing H 2 Evolution
    Wang, J.; Xia, T.; Wang, L.; Zheng, X.; Qi, Z.; Gao, C.; Zhu, J.; Li, Z.; Xu, H.;* Xiong, Y.* Angew. Chem. Int. Ed. 2018 , 57 , 16447-16451.

    31. Heterogeneous Single-Atom Catalyst for Visible-Light-Driven High-Turnover CO 2 Reduction: The Role of Electron Transfer
    Gao, C.; Chen, S.; Wang, Y.; Wang, J.; Zheng, X.; Zhu, J.; Song, L.;* Zhang, W.; Xiong, Y.* Adv. Mater. 2018 , 30 , 1704624.

    32. 2D Polymers as Emerging Materials for Photocatalytic Overall Water Splitting
    Wang, L.; Zhang, Y.; Chen, L.; Xu, H.;* Xiong, Y.* Adv. Mater. 2018 , 30 , 1801955.

    33. Surface Plasmon Enabling Nitrogen Fixation in Pure Water through a Dissociative Mechanism under Mild Conditions
    Hu, C.; Chen, X.; Jin, J.; Han, Y.; Chen, S.; Ju, H.; Cai, J.; Qiu, Y.; Gao, C.; Wang, C.; Qi, Z.; Long, R.;* Song, L.; Liu, Z.; Xiong, Y.* J. Am. Chem. Soc. 2019 , 141 , 7807-7814.

    34. Metal-Organic Framework Coating Enhances the Performance of Cu 2 O in Photoelectrochemical CO 2 Reduction
    Deng, X.; Li, R.; Wu, S.; Wang, L.; Hu, J.; Ma, J.; Jiang, W.; Zhang, N.; Zheng, X.; Gao, C.;* Wang, L.; Zhang, Q.;* Zhu, J.; Xiong, Y.* J. Am. Chem. Soc. 2019 , 141 , 10924-10929.

    35. Selective Photoelectrochemical Oxidation of Glycerol to High Value-Added Dihydroxyacetone
    Liu, D.; Liu, J. C.; Cai, W.; Ma, J.; Yang, H. B.; Xiao, H.;* Li, J.; Xiong, Y.;* Huang, Y.; Liu, B.* Nat. Commun. 2019 , 10 , 1779.

    36. Precisely Tuning the Number of Fe Atoms in Clusters on N-Doped Carbon towards Acidic Oxygen Reduction Reaction
    Ye, W.; Chen, S.; Lin, Y.; Yang, L.; Chen, S.; Zheng, X.; Qi, Z.; Wang, C.; Long, R.; Chen, M.;* Zhu, J.; Gao, P.;* Song, L.; Jiang, J.; Xiong, Y.* Chem 2019 , 5 , 2865-2878.

    37. Tracking Mechanistic Pathway of Photocatalytic CO 2 Reaction at Ni Sites Using Operando, Time-Resolved Spectroscopy
    Hu, Y.; Zhan, F.; Wang, Q.; Sun, Y.; Yu, C.; Zhao, X.; Wang, H.; Long, R.; Zhang, G.; Gao, C.;* Zhang, W.;* Jiang, J.; Tao, Y.;* Xiong, Y.* J. Am. Chem. Soc. 2020 , 142 , 5618-5626.

    38. Visible Light-Driven Nitrogen Fixation Catalyzed by Bi 5 O 7 Br Nanostructures: Enhanced Performance by Oxygen Vacancies
    Li, P.; Zhou, Z.; Wang, Q.;* Guo, M.; Chen, S.;* Low, J.; Long, R.; Liu, W.;* Ding, P.; Wu, Y.; Xiong, Y.* J. Am. Chem. Soc. 2020 , 142 , 12430-12439.

    39. Direct Observation for Dynamic Bond Evolution in Single-Atom Pt/C 3 N 4 Catalysts
    Zhang, L.; Long, R.; Zhang, Y.; Duan, D.; Xiong, Y.;* Zhang, Y.; Bi, Y.* Angew. Chem. Int. Ed. 2020 , 59 , 6224-6229.

    40. Catalyst: How Material Chemistry Enables Solar-Driven CO 2 Conversion
    Kong, T.; Low, J.; Xiong, Y.* Chem 2020 , 6 , 1035-1038.

    41. Heterogeneous Single-Atom Photocatalysts: Fundamentals and Applications
    Gao, C.; Low, J.; Long, R.; Kong, T.; Zhu, J.; Xiong, Y.* Chem. Rev. 2020 , 120 , 12175-12216.

    42. Photocatalytic CO 2 Conversion: What Can We Learn from Conventional CO x Hydrogenation?
    Kong, T.; Jiang, Y.; Xiong, Y.* Chem. Soc. Rev. 2020 , 49 , 6579-6591.

    43. Pd-Modified ZnO-Au Enabling Alkoxy Intermediates Formation and Dehydrogenation for Photocatalytic Conversion of Methane to Ethylene
    Jiang, W.; Low, J.; Mao, K.; Duan, D.; Chen, S.; Liu, W.; Pao, C. W.; Ma, J.; Sang, S.; Shu, C.; Zhan, X.; Qi, Z.; Zhang, H.; Liu, Z.; Wu, X.; Long, R.;* Song, L.; Xiong, Y.* J. Am. Chem. Soc. 2021 , 143 , 269-278.

    44. Efficient Photoelectrochemical Conversion of Methane into Ethylene Glycol by WO 3 Nanobar Arrays
    Ma, J.; Mao, K.; Low, J.; Wang, Z.; Xi, D.; Zhang, W.; Ju, H.; Qi, Z.; Long, R.;* Wu, X.; Song, L.; Xiong, Y.* Angew. Chem. Int. Ed. 2021 , 60 , 9357-9361.

    45. Altering Hydrogenation Pathways in Photocatalytic Nitrogen Fixation by Tuning Local Electronic Structure of Oxygen Vacancy with Dopant
    Bo, Y.; Wang, H.; Lin, Y.; Yang, T.; Ye, R.; Li, Y.; Hu, C.; Du, P.; Hu, Y.; Liu, Z.; Long, R.; Gao, C.;* Ye, B.; Song, L.; Wu, X.;* Xiong, Y.* Angew. Chem. Int. Ed. 2021 , 60 , 16085-16092.

    46. Ultrastable Cu Catalyst for CO 2 Electroreduction to Multicarbon Liquid Fuels by Tuning C−C Coupling with CuTi Subsurface
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    47. Surface-Bound Reactive Oxygen Species Generating Nanozymes for Selective Antibacterial Action
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    48. IrW Nanochannel Support Enabling Ultrastable Electrocatalytic Oxygen Evolution at 2 A∙cm -2 in Acidic Media
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    49. Vacancy-Defect Modulated Pathway of Photoreduction of CO 2 on Single Atomically Thin AgInP2S6 Sheets into Olefiant Gas
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    50. Efficient Photoelectrochemical CO 2 Conversion for Selective Acetic Acid Production
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    51. Reversing Electron Transfer Chain for Light-Driven Hydrogen Production in Biotic-Abiotic Hybrid System
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    52. Identifying an Interfacial Stabilizer for Regeneration-Free 300-Hour Electrochemical CO 2 Reduction to C 2 Products
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    53. Highly Selective Photocatalytic CO 2 Methanation with Water Vapor on Single-Atom Platinum-Decorated Defective Carbon Nitride
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    54. Sunlight-Driven Highly Selective Catalytic Oxidation of 5-Hydroxymethylfurfural Towards Tunable Products
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    55. Over 70% Faradaic Efficiency for CO 2 Electroreduction to Ethanol Enabled by K Dopant-Tuned Cu Sites-Intermediates Interaction
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    56. Precisely Tailoring Heterometallic Polyoxotitanium Clusters for the Efficient and Selective Photocatalytic Oxidation of Hydrocarbons
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    57. Sustainable Conversion of Microplastics to Methane with Ultrahigh Selectivity by Biotic-Abiotic Hybrid Photocatalytic System
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    58. Limiting the Uncoordinated N Species in M-N x Single-Atom Catalysts toward Electrocatalytic CO 2 Reduction in Broad Voltage Range
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    59. Stacked Plasmonic Metamaterial with Strong Localized Electric Field Enables Highly Efficient Broadband Light-Driven CO 2 Hydrogenation
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    60. V-Doped Cu 2 Se Hierarchical Nanotubes Enabling Flow-Cell CO 2 Electroreduction to Ethanol with High Efficiency and Selectivity
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    61. High-Performance Photocatalytic Nonoxidative Conversion of Methane to Ethane and Hydrogen by Heteroatoms-Engineered TiO 2
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    62. Solar-Driven Methanogenesis with Ultrahigh Selectivity by Turning down H 2 Production at Biotic-Abiotic Interface
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    63. Extraterrestrial Photosynthesis by Chang’E-5 Lunar Soil
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    65. Metal-Organic Frameworks Offering Tunable Binary Active Sites toward Highly Efficient Urea Oxidation Electrolysis
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    67. Highly Efficient Overall Urea Electrolysis via Single-Atomically Active Centers on Layered Double Hydroxide
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    68. Identification and Design of Active Sites on Photocatalysts for Direct Artificial Carbon Cycle
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    69. Near-Infrared-Featured Broadband CO 2 Reduction with Water to Hydrocarbons by Surface Plasmon
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    70. Sustainable Methane Utilization Technology via Photocatalytic Halogenation with Alkali Halide
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    71. Vacancies-Modulated Cu-Ti Atomic Cooperation for the Room-Temperature Photosynthesis of Value-Added Propane from CO 2
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    72. Hierarchical Triphase Diffusion Photoelectrodes for Photoelectrochemical Gas/Liquid Flow Conversion
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    73. Light-Driven Flow Synthesis of Acetic Acid Solely from Methane with High Selectivity by Chemical Looping in Heterointerface Nanocomposites
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    74. Mimicking Reductive Dehalogenases for Electrocatalytic Water Dechlorination
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    75. Artificial Photosynthetic Cells with Biotic-Abiotic Hybrid Energy Modules for Customized CO 2 Conversion
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    76. Enabling Direct-Growth Route for Highly Efficient Ethanol Upgrading to Long-Chain Alcohols in Aqueous Phase
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    77. Computational Design and Experimental Validation of Enzyme Mimicking Cu-based Metal-Organic Frameworks for the Reduction of CO 2 into C 2 Products: C-C Coupling Promoted by Ligand Modulation and the Optimal Cu-Cu Distance

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    78. Integration of MnO 2 Nanosheets with Pd Nanoparticles for Efficient CO 2 Electroreduction to Methanol in Membrane Electrode Assembly Electrolyzers

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    79. Ag + -Doped InSe Nanosheets for Membrane Electrode Assembly Electrolyzer toward Large-Current Electroreduction of CO 2 to Ethanol

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    80. Rational Design of N-doped Carbon Coated Cobalt Nanoparticles for Highly Efficient and Durable Photothermal CO 2 Conversion
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    81. In Situ Resource Utilization of Lunar Soil for Highly Efficient Extraterrestrial Fuel and Oxygen Supply
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    82. A Nonmetallic Plasmonic Catalyst for Photothermal CO 2 Flow Conversion with High Activity, Selectivity and Durability
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    83. Spectroscopic Visualization of Reversible Hydrogen Spillover between Palladium and metal-Organic frameworks toward Catalytic Semihydrogenation
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    84. Solar-driven sugar production directly from CO2 via a customizable electrocatalytic-biocatalytic flow system
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    85. Integration of Photothermal Water Evaporation with Photocatalytic Microplastics Upcycling via Nanofluidic Thermal Management
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    87. Continuous Flow System for Highly Efficient and Durable Photocatalytic Oxidative Coupling of Methane

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    88. Highly Efficient and Selective Light-Driven Dry Reforming of Methane by a Carbon Exchange Mechanism

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    89. Concentrated Formic Acid from CO 2 Electrolysis for Directly Driving Fuel Cell

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    90. Tailoring Second Coordination Sphere for Tunable Solid-Liquid Interfacial Charge Transfer toward Enhanced Photoelectrochemical H 2 Production

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    91. Abiotic Methane Production Driven by Ubiquitous Non-Fenton-Type Reactive Oxygen Species

    Ye, J.; Hu, A.; Gao, C.; Li, F.; Li, L.; Guo, Y.; Ren, G.; Li, B.; Rensing, C.; Nealson, K. H.; Zhou, S.;* Xiong, Y.* Angew. Chem. Int. Ed. 2024 , DOI: 10.1002/anie.202403884.

    92. Efficient Thermal Management with Selective Metamaterial Absorber for Boosting Photothermal CO 2 Hydrogenation under Sunlight

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    93 . Sustainable All-Weather CO 2 Utilization by Mimicking Natural Photosynthesis in a Single Material

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