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电催化DEMS部分客户发表论文


  1.  Tehua Wang, Yuqin Zou*, Xianzhu Fu*, Yafei Li*, Xiangfeng Duan*, Shuangyin Wang*, et al. Combined anodic and cathodic hydrogen production from aldehyde oxidation and hydrogen evolution reaction. Nature Catalysis. 2022, 5, 66-73

  2. Chao Lin, Xiaopeng Li*, Zhipan Liu*, Zheng Jiang*, Jung-Ho Lee*, et al. In-situ reconstructed Ru atom array on α-MnO2 with enhanced performance for acidic water oxidation. Nature Catalysis. 2021, 4, 1012-1023

  3. Yunzhou Wen, Bo Zhang*, Huisheng Peng*, Edward H. Sargent*, et al. Stabilizing Highly Active Ru Sites by Suppressing Lattice Oxygen Participation in Acidic Water Oxidation.J. Am. Chem. Soc. 2021, 143, 6482-6490

  4. Guangxing Yang, Xiaowei Teng*, et al. Conversion of Ethanol via C-C Splitting on Noble Metal Surfaces in Room-Temperature Liquid-Phase. J. Am. Chem. Soc. 2019, 141, 9444-9447

  5. Yuting Wang, Bin Zhang*, et al. Unveiling the Activity Origin of Copper-based Electrocatalyst for Selective Nitrate Reduction to Ammonia. Angew. Chem. Int. Ed. 2020, 59, 5350-5354

  6.  Yonggang Wang*, et al. Organic Proton-buffer-electrode to Separate Hydrogen and Oxygen Evolution in Acid Water Electrolysis. Angew. Chem. Int. Ed. 2019, 131, 4670-4674

  7.  Chen Chen*, Yuqin Zou*, Shuangyin Wang*, et al. Unveiling the electrooxidation of urea: the intramolecular coupling of N-N bond. Angew. Chem. Int. Ed. 2021, 60,  7297-7307

  8.  Wuji Sun, Jinghui He,* Jianmei Lu*, et al. Built-in Electric Field Triggered Interfacial Accumulation Effect for Efficient Nitrate Removal at Ultra-Low Concentration and Electroreduction to Ammonia. Angew. Chem. Int. Ed. 2021, 60, 22933-22939

  9. Xiaolong Yang, Zhao Jin*, Zheng Jiang*, Changpeng Liu*, Junjie Ge*, Wei Xing*, et al. CO-Tolerant PEMFC Anodes Enabled by Synergistic Catalysis between Iridium Single-Atom Sites and Nanoparticles.Angew. Chem. Int. Ed. 2021, 60, 26177-26183

  10.  Tieliang Li, Yifu Yu, Bin Zhang*, et al. Sulfate-Enabled Nitrate Synthesis from Nitrogen Electrooxidation on Rhodium Electrocatalyst. Angew. Chem. Int. Ed. 2022, e202204541

  11.  Xian Wang, Zheng Jiang*, Wei Zhang*, Changpeng Liu*, Wei Xing*, Junjie Ge*, et al. Proton exchange membrane fuel cells powered with both CO and H2. PNAS 2021, 118, e2107332118

  12.  Zhaoping Shi, ZhengJiang*, Changpeng Liu*, Wei Xing*, Junjie Ge*, et al. Confined Ir single sites with triggered lattice oxygen redox: Toward boosted and sustained water oxidation catalysis.Joule. 2021, 5, 2164-2176

  13.  Zuyun He, Jun Zhang, Shijun Zhao, Yan Chen*, et al. Activating lattice oxygen in NiFe-based (oxy)hydroxide for water electrolysis.Nat. Commun. 2022, 13, 2191

  14.  Jungang Wang, Jing Xie, Yang Tian, Di Li*, et al. In-situ plasmonic tracking oxygen evolution reveals multistage oxygen diffusion and accumulating inhibition. Nat. Commun. 2021, 12, 2164

  15.  Longsheng Zhang, Bo Zhang*, Huisheng Peng*, et al. Boosting Neutral Water Oxidation through Surface Oxygen Modulation. Adv. Mater. 2020, 32, 2002297

  16.  Dazhi Yao, Shizhang Qiao*, et al. In situ Fragmented Bismuth nanoparticles for electrocatalytica nitrogen reduction. Adv. Energy Mater. 2020, 10, 2001289

  17.  Yawei Zhou, Wenbin Cai*, et al. Probing the enhanced methanol electrooxidation mechanism on platinum-metal oxide catalyst. Applied catalysis B: Enviromental 2021, 280, 119393

  18.  Yanbo Li, Bin Zhang, Yifu Yu*, et al. Electrocatalytic Reduction of Low-Concentration Nitric Oxide into Ammonia over Ru Nanosheets.ACS Energy Letters 2022, 7, 1187-1194

  19.  Yanmei Huang, Yifu Yu, Bin Zhang*, et al. Direct Electrosynthesis of Urea from Carbon Dioxide and Nitric Oxide. ACS Energy Letters 2022, 7, 284-291

  20.  Chunhong Fu, Sen Zhang, Guangming Jiang*, et al. Electrocatalytic nitrate reduction on bimetallic palladium-copper nanowires: key surface structure for selective dinitrogen formation. Chemical Engineering Journal 2022, 435, 134969                             

  21.  Tao Feng, Ying Wang, Fengting Li, Weixian Zhang, et al. Selective electrocatalytic reduction of nitrate to dinitrogen by Cu2O nanowires with mixed oxidation-state. Chemical Engineering Journal 2022, 433, 133495

  22.  Bincheng Xu, Ying Wang*, et al. On-Demand Atomic Hydrogen Provision by Exposing Electron-Rich Cobalt Sites in an Open-Framework Structure toward Superior Electrocatalytic Nitrate Conversion to Dinitrogen. Environmental Science & Technology 2022, 56, 614-623    

  23. Tianwen Jiang, Bei Jiang*, Kun Jiang*, Wenbin Cai*, et al. Spectrometric Study of Electrochemical CO2 Reduction on Pd and Pd-B Electrodes ACS Catal. 2021, 11, 840-848

  24.  Dengtao Yang, Karthish Manthiram*, et al. Direct Electrochemical Carboxylation of Benzylic C-N Bonds with Carbon Dioxide. ACS Catal. 2019, 9, 4699-4705

  25.  Jing Wang, Xiaosheng Fang*, et al. Electrocatalytic nitrate/nitrite reduction to ammonia synthesis using metal nanocatalysts and bio-inspired metalloenzymes. Nano Energy 2021, 86, 106088

  26.  Binhao Qin, Feng Peng*, et al. Efficient Electrochemical Reduction of CO2 into CO Promoted by Sulfur Vacancies. Nano Energy 2019, 60, 43-51

  27.  Yang Li, Zheng Jiang*, Junjie Ge*, et al. Carbon monoxide powered fuel cell towards H2-onboard purification. Science Bulletin 2021, 66, 1305-1311

  28.  Tiliang Li, Yuting Wang, Yifu Yu*, Bin Zhang*, et al. Ru-Doped Pd Nanoparticles for Nitrogen Electrooxidation to Nitrate. ACS Catal. 2021, 11, 14032-14037

  29.  Ranran Jia, Bin Zhang*, et al. Boosting Selective Nitrate Electroreduction to Ammonium by Constructing Oxygen Vacancies in TiO2. ACS Catal. 2020, 10, 3533-3540

  30.  Yingjie Chen, Wangzu Li, Yu YaoPratahdeep Gogoi, Xuebiao Deng, Yi Xie, Zhenyu Yang, Ying Wang*, and Yuguang C. Li*. Enabling Acidic Oxygen Reduction Reaction in a Zinc-Air Battery with Bipolar Membrane. ACS Applied Materials & Interfaces 2022, 14, 12257-12263

  31. Changhong Wang, Yifu Yu*, et al. Integrated Selective Nitrite Reduction to Ammonia with Tetrahydroisoquinolines Semi-dehydrogenation over a Vacancy-Rich Ni Bifunctional Electrode.J. Mater. Chem. A 2021, 9, 239-243

  32. Nannan Meng, Yifu Yu*, Bin Zhang*, et al. Electrosynthesis of urea from nitrite and CO2 over oxygen vacancy-rich ZnO porous nanosheets. Cell Reports Physical Science 2021, 2, 100378

  33.  Wenbin Jiang, Xing Zhong*, Jianguo Wang*, et al. Lattice Oxygen of PbOInduces Crystal Facet Dependent Electrochemical Ozone Production. J. Mater. Chem. A 2021, 9, 9010-9017

  34.  Qiaoqiao Mu, Yang Peng*, et al. Dissecting the interfaces of MOF-coated CdS on synergized charge transfer for enhanced photocatalytic COreduction. Journal of Catalysis 2021, 397, 128-136

  35.  Lihua Lai, Guangxing Yang*, Feng Peng*, et al. Essential analysis of cyclic voltammetry of methanol electrooxidation using the differential electrochemical mass spectr-ometry. Journal of Power Sources 2021, 509, 230397

  36.  Yu Yu, Yifu Yu*, Yuting Wang, Bin Zhang*, et al. Promoting selective electroreduction of nitrates to ammonia over electron-deficient Co modulated by rectifying Schottky contacts. Science China Chemistry 2020, 63, 1469-1476

  37.  Daqi Song, Liang Wang*, Yong Wang*, et al. Rational Design of Ni-Based Electrocatalysts by Modulation of Iron Ions and Carbon Nanotubes for Enhanced Oxygen Evolution Reaction. Adv. Sustainable Syst. 2020, 4, 2000227

  38. Jiangwei Shi, Bin Zhang*, et al. Promoting nitric oxide electroreduction to ammonia over electron-rich Cu modulated by Ru doping. Science China Chemistry 2021, 64, 1493-1497

  39. Yong Liu, Yanjuan Sun, Fan Dong*, et al. Metal-organic framework derived carbon-supported bimetallic copper-nickel alloy electrocatalysts for highly selective nitrate reduction to ammonia. Journal of Colloid and Interface Science 2022, 614, 405-414

  40. Xiaolong Yang, Xian Wang*, Junjie Ge*, Wei Xing*, et al. A new pathway for formic acid electro-oxidation: The electro-chemically decomposed hydrogen as a reaction intermediate. Journal of Energy Chemistry 2022, 71, 188-191

  41.  Tehua Wang, ZhifengHuang, TianyangLiu, LiTao*, Shuangyin Wang*, et al. Transforming Electrocatalytic Biomass Upgrading and Hydrogen Production from Electricity Input to Electricity Output. Angew. Chem. Int. Ed. 2022, 61, e20211563

  42.  Yajun ZhengQiang Wang*Guangxing Yang*Zhiping Zhang*, et al. Water coordinated on Cu(I)- based catalysts is the oxygen source in CO2 reduction to CO. Nat. Commun. 2022, 13, 2577

  43. Xi Zhang, Yifu Yu*, et al. Cu clusters/TiO2−x with abundant oxygen vacancies for enhanced electrocatalytic nitrate reduction to ammonia. J. Mater. Chem. A 2022, 10, 6448–6453

  44. Xueying Cao, Bari Wulan, Baohua Zhang, Dongxing Tan, Jintao Zhang*. Defect evolution of hierarchical SnO2 aggregates for boosting CO2 electrocatalytic reduction. J. Mater. Chem. A 2021, 9, 14741–14751

  45. Wuji Sun, Jian-Mei Lu*, et al. A Bioinspired Iron-Centered Electrocatalyst for Selective Catalytic Reduction of Nitrate to Ammonia. ACS Sustainable Chem. Eng. 2022, 10, 5958–5965

  46.  Huaijie Shi, Xing Zhong*, Shibin Wang*, Jianguo Wang*, et al. Weak Pb–O of confined [Pb–O4] in pyramidal sillenite-type Bi12PbO20 for enhanced electrochemical ozone production. J. Mater. Chem. A 2022, 10, 5430-5441

  47. Honghan Fei*, Guohua Zhao* et al. Efficient and selective electrochemical reduction of nitrate to N2 by relay catalytic effects of Fe-Ni bimetallic sites on MOF-derived structure. Applied Catalysis B: Environmental 2022, 301, 120829

  48. Jungang Hou* et al. Triggering the Lattice Oxygen Activation of Single-atomic Mo Sites Anchored Ni-Fe Oxyhydroxides Nanoarrays for Electrochemical Water Oxidation. Adv. Mater. 2020, 2202523

  49. Pinxian Xi* et al. Tailoring Oxygen Reduction Reaction Pathway on Spinel Oxides via Surficial Geometrical-Site Occupation Modification Driven by Oxygen Evolution Reaction. Adv. Mater. 2020, 2202874

  50. Xiaoxin Zou* et al. Protonated Iridate Nanosheets with a Highly Active and Stable Layered Perovskite Framework for Acidic Oxygen Evolution. ACS Catal. 2022, 12, 14, 8658–8666

  51. Jiangwei Zhang*, Gao-Ren Li* et al. Key Roles of Surface Fe Sites and Sr Vacancies in Perovskite for Efficient Oxygen Evolution Reaction Participated by Lattice Oxygen Oxidation. Energy Environ. Sci. 2022,15, 3912-3922

  52.  Junfeng Gao*, Jungang Hou* et al. Identification of the Origin for Reconstructed Active Sites on Oxyhydroxide for Oxygen Evolution Reaction.  Adv. Mater. 2022, 2209307

  53. Jianping Yang* et al. Iron Nanoparticles Protected by Chainmail-structured Graphene for Durable Electrocatalytic Nitrate Reduction to Nitrogen Angew. Chem. Int. Ed. 2023, e202217071

  54. Yuting Wang*, Yifu Yu* et al. Oxide-Derived Core–Shell Cu@Zn Nanowires for Urea Electrosynthesis from Carbon Dioxide and Nitrate in Water ACS Nano 2022, 16, 6, 9095–9104

  55.  Junjie Ge*, Wei Xing* et al. Enhanced Acidic Water Oxidation by Dynamic Migration of Oxygen Species r/Nb2O5−x Catalyst/SupportInterfaces Angew. Chem. Int. Ed. 2022, 61, e202212341

  56. Yifu Yu*, Bin Zhang* et al. Electrochemical Upgrading of Formic Acid to Formamide via Coupling Nitrite Co-Reduction J. Am. Chem. Soc. 2022, 144, 35, 16006–16011

  57. Jintao Zhang* et al. Electrochemically Driven Interfacial Transformation For High-Performing Solar-To-Fuel Electrocatalytic Conversion Adv. Energy Mater. 2022, 12, 2103960

  58.  Xin wang*, Aiping Yu*, Zhongwei Chen* et al. Continuous CO2 electrolysis using a CO2 exsolution-induced flow cell. Nature Energy .7, 978-988(2022)

  59.  Wenzhen Li* et al. Ultra-low voltage bipolar hydrogen production from biomass-derived aldehydes and water in membrane-less electrolyzers. Adv. Energy Mater . 2022, 15, 4175

  60.  Mingfei Shao* et al. Active hydrogen boosts electrochemical nitrate reduction to ammonia.Nat. Commun. (2022) 13:7958

  61. Huigang Zhang*, Qingshan Zhu*, Jun Lu* et al. Fe/Cu diatomic catalysts for electrochemical nitrate reduction to ammonia. Nat. Commun(2023) 14, 3634

  62.  Yifu Yu*, Bin Zhang* et al. Linear Adorption Enables NO Selective Electroreduction to Hydroxylamine on Single Co Sites. Nat. Commun.2023.202305184

  63. Jie Zeng*, Chuan Xia*, Jianping Xiao* et al. Manipulating Local coordination of copper single atom catalyst enables efficient CO2-to CHconversion Nature Sustianabilty. (2023)14,3382

  64. Yifu Yu*,Bin Zhang* et al. Economically viable electrocatalytic ethylene production with high yield and selectivity.Nature Sustianabilty.2023,6,827-837

  65. Bin Zhang* et al. Electrosynthesis of 15N-labeled amino acids from 15N-nitrite and ketonic acids. Science China Chemistry.2023,66,1854-1859

  66. Yuqin Zou* et al. Electrocatalytic Synthesis of Nylon-6 Precursor at Almost 100 % Yield. Energy Environ. Sci. 2023.e202305491

  67. Yingjie Wang*, Jiali Gao*, Xia Long*, Shihe Yang* et al. Fe(lll) Docking-Activated Sites in Lavered Birnessite for Efficient Water Oxidation. J. Am. Chem. Soc.2023,145,20,11215-11226

  68. Hui-juan wang and Min-Rui Gao*, Highly Enhanced Chloride Adsorption Mediates Efficient Neutral COElectroreduction over a Dual-Phase Copper Catalyst.J. Am. Chem. Soc.2023,145,15,8714-8725

  69. Bin Zhang*, Yifu Yu* et al. Ultralow overpotential nitrate reduction to ammonia via a three-step relay mechanism. Nature Catalysis.2023,6,402-414

  70. Wei luo* et al. Atomically dispersed Ru oxide catalyst with lattice oxygen participation for efficient acidic water oxidation. Adv. Mater.2023,03,005

  71. Hongyan Liang*, Edward H.Sargent* et al. Doping Shortens the Metal/Metal Distance and Promotes OH Coverage in Non-Noble Acidic Oxygen Evolution Reaction Catalysts. J. Am. Chem. Soc.2023,145,14,7829-7836

  72. Yang Hu*, Yao Zheng*,PinXian Xi* et al. Understanding the sulphur-oxygen exchange process of metal sulphides prior to oxygen evolution reactionNature Communicatins.(2023)14,1914

  73. Xian-Zhu Fu* et al. A Direct Formaldehyde Fuel Cell for CO2-Emission Free Co-generation of Electrical Energy and Valuable Chemical/Hydrogen. Adv. Mater.2023,135,21,e202302950

  74. Jianping Xiao*, Jie Zeng*, Chuan Xia* et al. Selective COelectrolysis to CO2 using isolated antimony alloyed copper. Nat. Commun.(2023)14,340

  75. Cheng Lian*, Honglai Liu*, Chunzhong Li* et al. Dopant- and Surfactant-Tuned Electrode-Electrolyte Interface Enabling Efficient Alkynol Semi-Hydrogenation. J. Am. Chem. Soc.2023,145,11,6516-6525

  76. Hui-Juan Wang*, Min-Rui Gao* et al, Highly Enhanced Chloride Adsorption Mediates Efficient Neutral CO Electroreduction over a Dual-Phase Copper Catalyst. J. Am. Chem. Soc.2023,145,15,8714-8725

  77. Yu Chen*, Gong Zhang*, Ying Wang*,Jiuhin Qu* et al. Tip-Intensified Interfacial Microenvironment Reconstruction Promotes an Electrocatalytic Chlorine Evolution Reaction. ACS Catal. 2022,12,22,14376-14386

  78. Qingfeng Xu*, Jianmei Lu* et al. Boosting the Electrocatalytic Urea Oxidation Performance by Amorphous-Crystalline Ni-TPA@NiSe Heterostructures and Mechanism Discovery.ACS Catal.2023,13,1,837-847

  79.  Xin Tu*, Yifei Sun* et al. Ex Situ Reconstruction-Shaped Ir/CoO/Perovskite Heterojunction for Boosted Water Oxidation Reaction .ACS Catal.2023,13,7,5007-5019

  80. Jianping Xiao*, Zhang-Shuai Wu* et al. Unraveling oxygen vacancy site mechanism of Rh-doped RuO catalyst for long-lasting acidic water oxidation.Nature Communicatins. 2023)14,1412


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