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侯阳

发布日期:2024-06-04  来源:   点击量:



侯阳 男,研究员,博士生导师,现任7321com必赢(中国)有限公司院长。

国家自然科学基金委优秀青年基金获得者,浙江大学百人计划入选者,英国皇家化学会会士(FRSC,浙江省高层次人才计划入选者(创新长期),浙江省特聘专家,浙江省杰出青年基金获得者,入选科睿唯安(Clarivate Analytics'全球高被引科学家'2020-2021,全球前2%顶尖科学家榜单(2019, 2020),全球顶尖前10万科学家榜单(2021),未来化工学者获得者,获得侯德榜化工科学技术青年奖(1/1),中国石油和化学工业联合会“青年科技突出贡献奖”(1/1),中国化工学会科学技术奖(1/4),中国产学研合作创新奖(1/1)。现担任副主编: Nano-Micro Letters,副主编: Chemical Engineering Journal Advances,副主编: The Canadian Journal of Chemical Engineering,副主编: Frontiers in Catalysis,青年通讯专家:中国工程院院刊《Engineering》,编委: Scientific Reports,青年编委: Chinese Chemical Letters,国际期刊Graphene, Recent Patents on Materials Science, Nano Energy Systems, Frontiers in Energy Storage, Frontiers in Energy Research的评审编辑、特约编委委员和国际编委委员等。多次在国际会议上作主旨报告(Keynote)及担任会议分会场主席,担任第17界亚太化工联盟大会科学委员会委员。


主要研究领域

可再生能源与绿色氢能, 锂离子电池和超级电容器材料,二氧化碳转化与资源化利用及其新型水系电池,能源纳米材料及新型功能复合材料,环境化工与环境友好型催化。


研究方向

环境催化与能源催化(持久性有毒有机污染物的高效净化、二氧化碳光(电)催化还原转化成化学燃料、人工光合作用固氮合成氨等)

新型能源环境应用纳米与功能材料

太阳能转化与利用和光电催化分解水制氢

基于新型二维复合纳米结构的环境及能源器件(电解水、微生物燃料电池、光催化等)


学术奖励情况

2004 2nd Grade Award of Dalian Jiaotong University

2005   1st Grade Award of Dalian Jiaotong University

2009   First Prize in the Natural Science Academic Achievement Award of Liaoning Province

2009   Scientific and Technological Innovation Award for Graduate Students in DUT

2010   Fundamental Research Funds for DUT

2010   Excellent Graduate Student with Doctor's Degree of DUT

2010   Excellent Graduate Student of DUT

2010   “Chinese Academy of Sciences” Scholarship

2010   The Second Ph.D. Candidate “Academic Star” of DUT

2010   Ph.D. Candidate “Academic Star” of School of Environmental Science and Technology of DUT

2011   Excellent Doctoral Dissertation Special Award of DUT

2011   Excellent Graduate Student of Dalian

2011   First Prize in the Natural Science Academic Achievement Award of Liaoning Province

2011   The Third-Class Prize of ORGANO WATER PRIZE from ORGANA Company of Japan

2012   Second Prize in the Natural Science Academic Achievement Award of Liaoning Province

2012   Excellent Doctoral Dissertation Award of Dalian University of Technology (DUT)

2013   Excellent Doctoral Dissertation Award of Liaoning Province

2014   Nomination Award of National Excellent Doctorate Dissertation of China


社会兼职

兼任中国化工学会化工过程强化青年委员会委员,中国稀土学会催化专业委员会委员,中国化工学会精细化工青年学者委员会委员,中国化工学会会员,中国化学会会员,英国皇家化学会会员等。


授权发明专利

1.侯阳;雷超君;杨建;杨彬;雷乐成,一种通过电化学剥离制备原位氧掺杂三维石墨烯的方法,中国,2018-5-23(申请日),申请号:201810502069.2。

2.侯阳;王淋;杨彬;雷乐成,一种三维氮掺杂过渡金属氧化物/硫化镍复合催化剂及制备方法和应用,中国,2019-5-29(申请日),申请号:201910457497.2。

3.侯阳;王淋;雷乐成,一种磷化钴/氮掺多孔碳复合催化材料及其制备方法和应用,中国,2018-10-19(申请日),申请号:201811223223.9。

4.侯阳;司锦程;雷乐成,一种二维超薄二硫化铌纳米片的制备方法及产品和应用,中国,2018-10-26(申请日),申请号:201811258503.3。

5.侯阳;陈翰林;雷乐成,一种二维超薄硫化亚锡纳米片的制备方法及产品和应用,中国,2018-10-26(申请日),申请号:201811258530.0。

6.侯阳;王馨悦,一种镍-氮共掺杂的碳电催化剂及其制备方法和应用,中国,2019-2-1(申请日),申请号:2019101049982。

7.侯阳;王馨悦,镍纳米颗粒负载和镍氮共掺杂的碳电催化剂及其制备方法和应用,中国,2019-2-1(申请日),申请号:201910104400X。

8.侯阳;孔燕;杨彬;雷乐成,一种电化学合成氨的催化剂及其制备方法和阴极材料,中国,2019-1-11(申请日),申请号:2019100281671。

9.侯阳;孔燕;杨彬;雷乐成,一种电化学合成氨的氟掺杂催化剂及制备方法和阴极材料,中国,2019-1-14(申请日),申请号:2019100317226。

10.侯阳;曹骏辉;杨彬;雷乐成,氢氧化钴/ZIF-67碳基催化电极及其制备方法和应用,中国,2018-8-30(申请日),申请号:201811006746.8。

11.侯阳;曹骏辉;杨彬;雷乐成,一种三维核壳结构CoS2/CoS2-NC催化电极材料及其制备方法和应用,中国,2019-2-1(申请日),申请号:201910102657.1。

12.曹骏辉;侯阳;杨彬;雷乐成,一种水热釜内衬,中国,2019-2-1(申请日),申请号:20192018682.2。

13.侯阳;王晗;杨彬;雷乐成,一种液相剥离二硫化铌纳米片的应用,中国,2018-4-25(申请日),申请号:2019103387254。

14.侯阳;袁佳欣;杨彬;雷乐成,一种负载在泡沫镍表面的无定形(Ni,Fe)OOH薄膜电催化剂的制备方法及应用,中国,2019-3-28(申请日),申请号:2019102429141。

15.侯阳;袁佳欣;杨彬;雷乐成,一种硒化镍和三元硒化镍铁复合电催化剂及制备方法和应用,中国,2019-3-28(申请日),申请号:2019102434262。


近五年代表性论文

2020

24. Cheng, F. P.; Wang, L.; Wang, H. Q.; Lei, C. J.; Yang, B.; Li, Z. J.;* Zhang, Q. H.; Lei, L. C.; Wang, S. B.;* Hou, Y.* Boosting Alkaline Hydrogen Evolution and Zn-H2O Cell Induced by Interfacial Electron Transfer.

Nano Energy 2020, 71, 104621. (影响因子: 15.548)

25. Wang, L.;# Li, Z. J.;# Wang, K. X.; Dai, Q. Z.;* Lei, C. J.; Yang, B.; Zhang, Q. H.; Lei, L. C.; Leung, M. K. H.; Hou, Y.* Tuning d-band center of tungsten carbide via Mo doping for efficient hydrogen evolution and Zn-H2O cell over a wide pH range.

Nano Energy 2020, 74, 104850. (影响因子: 15.548)

26. Lei, C. J.; Zheng, Q.; Cheng, F. P.; Hou, Y.;* Yang, B.; Li, Z. J.; Wen, Z. H.; Lei, L. C.; Chai, G. L.;* Feng X. L.* High-Performance Metal-Free Nanosheets Array Electrocatalyst for Oxygen Evolution Reaction in Acid.

Adv. Funct. Mater. 2020, 30, 2003000. (影响因子: 15.621)

27. Wei, F. C.; Wang, T. T.; Jiang, X. L.; Ai, Y.; Cui, A. Y.; Cui, J.; Fu, J. W.; Cheng, J. G.; Lei, L. C.; Hou, Y.;* Liu, S. H.* Controllably Engineering Mesoporous Surface and Dimensionality of SnO2 towards High-Performance CO2 Electroreduction.

Adv. Funct. Mater. 2020, 30, 2002092. (影响因子: 15.621)

28. Wang, K. X.; Wang, X. Y.; Li, Z. J.; Yang, B.; Ling, M.; Gao, X.; Lu, J. G.; Shi, Q. R.; Lei, L. C.; Wu, G.;* Hou, Y.* Designing 3d dual transition metal electrocatalysts for oxygen evolution reaction in alkaline electrolyte: beyond oxides.

Nano Energy 2020, 77, 105162. (影响因子: 15.548)Invited Review

29. Wang, H.; Li, Z. J.; Li, Y.; Yang, B.; Chen, J.; Lei, L. C.; Wang, S. B.; Hou, Y.* An Exfoliated Iron Phosphorus Trisulfide Nanosheet with Rich Sulfur Vacancy for Efficient Dinitrogen Fixation and Zn-N2 battery.

Nano Energy 2021, 81, 105613. (影响因子: 15.548)

30. Cheng, F. P; Li, Z. J.;* Wang, L.; Yang, B.; Lu, J. G.; Lei, L. C.; Ma, T. Y.;* Hou, Y.* In situ Identification of Electrocatalytic Water Oxidation Behavior of Nickel-Based Metal-Organic Framework Nanoarray.

Mater. Horiz. 2021, 8, 556-564. (影响因子: 14.356)

31. Li, Z. J.;# Cao, A.;# Zheng, Q.; Fu, Y. Y.; Wang, T. T.; Arul, K. T.; Chen, J. L.; Yang, B.; Adli, N. M.; Lei, L. C.; Dong, C. L.; Xiao, J. P.;* Wu, G.;* Hou, Y.* Elucidating the Synergistic Effect of Dopants and Vacancies on Promoted Selectivity for CO2 Electroreduction to Formate.

Adv. Mater. 2021, 33, 2005113. (影响因子: 25.809)

32. Wang, X. Y.; Wang, Y.; Sang, X. H.; Zheng, W. H.; Zhang, S. H.;* Ling, S.; Yang, B.; Li, Z. J.; Chen, J. M.; Lei, L. C.; Adli, N. M.; Leung, M. K. H.; Qiu, M.;* Wu, G.;* Hou, Y.* Dynamic Activation of Adsorped Intermediates via Axial Traction for the Promoted Electrochemical CO2 Reduction.

Angew. Chem. Int. Ed. 2021, 60, 4192-4198. (影响因子: 12.257)

33. Chen, H. J.;# Chen, J. X.,# Si, J. C.; Hou, Y.;* Zheng, Q.; Yang, B.; Li, Z. J.; Gao, L. G.; Lei, L. C.; Wen, Z. H.* Feng, X. L.* Ultrathin Tin Monosulfide Nanosheets with Exposed (001) Plane for Efficient Electrocatalytic Conversion of CO2 into Formate.

Chem. Sci. 2020, 11, 3952-3958. (影响因子: 9.556)

34. Wang, T. T.; Sang, X. H.; Zheng, W. Z.; Yang, B.;* Yao, S. Y.; Lei, C. J.; Li, Z. J.; He, Q. G.; Lu, J. G.; Lei, L. C.; Dai, L. M.;* Hou, Y.* Gas Diffusion Strategy for Inserting Atomic Iron Sites into Graphitized Carbon Supports for Unusually High Efficient CO2 Electroreduction and High-Performance Zn-CO2 Batteries.

Adv. Mater. 2020, 32, 2002430. (影响因子: 25.809)

2021

35. Zheng, W. Z.; Wang, Y.; Shuai, L.; Wang, X. Y.; He, F.;* Lei, L. C.; Li, Z. J.; Yang, B.; Lei, L. C.; Yuan, C.; Qiu, M.;* Hou, Y.;* Feng X. L. Highly boosted reaction kinetics in carbon dioxide electroreduction by surface-introduced electronegative dopants.

Adv. Funct. Mater. 2021, 31, 2008146. (影响因子: 15.621)

36. Liu, X.; Sun, Y. J.; Tong, Y.; Wang, X. Y.; Zheng, J. F.; Wu, Y. J.; Li, H. Y.;* Niu, L.; Hou, Y.* Exploration in materials, electrolyte and performance towards metal ion (Li, Na, K, Zn and Mg)-based hybrid Capacitors: A review.

Nano Energy 2021, 86, 106070. (影响因子: 15.548) Invited Review

37. Li, Z. J.; Zeng, Q.; Ye, Z. P.; Zheng, W. Z.; Sang, X. H.; Dong, C. L.; Yang, B.; Pardiwala, B.; Lu, J. G.; Lei, L. C.; Wu, G.;* Hou, Y.* An Integrated Bioelectrochemical System Coupled CO2 Electroreduction Device based on Atomically Dispersed Iron Electrocatalyst.

Nano Energy 2021, 87, 106187. (影响因子: 15.548)

38. Zhang, Y. K; Wang, X. Y.; Zheng, S X.; Yang, B.; Li, Z. J.; Lu, J. G.; Zhang, Q. H.; Adli, N. M.; Lei, L. C.; Wu, G.; Hou, Y.* Hierarchical cross-linked carbon aerogels with transition metal-nitrogen sites for highly efficient industrial-level CO2 electroreduction.

Adv. Funct. Mater. 2021, 31, 2104377. (影响因子: 15.621)

39. Wang, X. Y.; Feng, S. H.; Lu, W. C.; Zhao, Y. J.; Zheng, S X.; Zheng, W. Z.; Sang, X. H.; Zheng, L. R.; Xie, Y.; Li, Z. J.; Yang, B.; Lei, L. C.; Wang, S. B.; Hou, Y.* A new strategy for accelerating dynamic proton transfer of electrochemical CO2 reduction at high current densities.

Adv. Funct. Mater. 2021, 31, 2104243. (影响因子: 15.621)

40. Dai, Q. Z.; Wang, L.; Wang, K. X.; Sang, X. H.; Li, Z. J.; Yang, B.; Chen, J. M.; Lei, L. C.; Dai, L. M.;* Hou, Y.* Accelerated water dissociation kinetics by electron-enriched cobalt sites for efficient alkaline hydrogen evolution.

Adv. Funct. Mater. 2021, 2109556. (影响因子: 15.621)

41. Chen, J. Y.; Li, Z. J.; Wang, X. Y.; Sang, X. H.; Zheng, S. X.; Liu, S. J.; Yang, B.; Zhang, Q. H.; Lei, L. C.; Dai, L. M.; Hou, Y.* Promoting CO2 Electroreduction Kinetics on Atomically Dispersed Monovalent Zn(I) Sites by Rationally Engineering Proton-feeding Centers.

Angew. Chem. Int. Ed. 2021, 61, e202111683. (影响因子: 12.257)图片1.jpg

42. Kong, Y.; Li, Y.; Sang, X. H.; Yang, B.; Li, Z. J.; Zheng, S. X.; Zhang, Q. H.; Yao, S. Y.; Yang, X. X.; Lei, L. C.; Zhou, S. D.;* Wu, G.;* Hou, Y.* Atomically Dispersed Zinc(I) Active Sites to Accelerate Nitrogen Reduction Kinetics for Ammonia Electrosynthesis.

Adv. Mater. 2021, 34, 2103548. (影响因子: 25.809)

43. Wang, R.;# Wang, X. Y.;# Weng, W. J.; Yao, Y.; Kidkhuntod, P.; Wang, C. C.; Hou, Y.;* Guo, J.* Proton/Electron-Donors Enhancing Electrocatalytic Activity of Supported Conjugated Microporous Polymers for CO2 Reduction.

Angew. Chem. Int. Ed. 2021, 61, e202115503. (影响因子: 12.257)

44. Li, Y.; Li, J. W.; Huang, J. H.; Chen, J. X.; Kong, Y.; Yang, B.; Li, Z. J.; Lei, L. C.; Chai, G. L.; Wen, Z. H.;* Dai, L. M.;* Hou, Y.* Boosting Electroreduction Kinetics of Nitrogen to Ammonia via Tuning Electron Distribution of Single-atomic Iron Sites.

Angew. Chem. Int. Ed. 2021, 60, 9078-9085. (VIP paper) (影响因子: 12.257)

45. Wang, X. Y.; Sang, X. H.; Dong, C. L.; Yao, S. Y.; Shuai, L.; Lu, J. G.; Yang, B.; Li, Z. J.; Lei, L. C.; Qiu, M.;* Dai, L. M.;* Hou, Y.* Proton capture strategy for enhancing electrochemical CO2 reduction on atomically dispersed metal-nitrogen active sites.

Angew. Chem. Int. Ed. 2021, 60, 11959-11965. (影响因子: 12.257)

46. Wang, G. X.; Chen, J. X.; Ding, Y. C.; Cai P. W.; Yi, L. C.; Li, Y.; Tu, C. Y.; Hou, Y.;* Wen, Z. H.;* Dai, L. M.* Electrocatalysis for CO2 conversion: from fundamentals to value-added products.

Chem. Soc. Rev. 2021, 50, 4993-5061. (影响因子: 42.846) Invited Review

2022

47. Chen, J. Y.; Wang, T. T.; Wang, X. Y.; Yang, B.;* Sang, X. H.; Zheng, S. X.; Yao, S. Y.; Li, Z. J.; Zhang, Q. H.; Lei, L. C.; Xu ,J.; Dai, L. M.; Hou, Y.* Promoting Electrochemical CO2 Reduction via Boosting Activation of Adsorbed Intermediates on Iron Single-atom Catalyst.

Adv. Funct. Mater. 2022, 2110174. (影响因子: 15.621)

48. Kou, Z. H.; Wu, L.; Yang, X. X.; Yang, B.; Li, Z. J.; Gao, X.; Zhou, S. D.; Lei, L. C.; Ma, T. Y.; Hou, Y.* Bridging Heterogeneous and Homogeneous Catalysts by Ultrathin Metal-polyphthalocyanine-Based Nanosheets from Electron-Coupled Transalkylation Delamination.

Nano Energy 2022, 98, 107297. (影响因子: 15.548)

49. He, F.; Zhao, Y. J.; Yang, X. X.; Zheng, S X.; Yang, B.; Li, Z. J.; Kuang, Y. B.; Zhang, Q. H.; Lei, L. C.; Qiu, M.;* Dai, L. M.;* Hou, Y.* Metal-Organic Frameworks with Assembled Bifunctional Microreactor for Charge Modulation and Strain Generation toward Enhanced Oxygen Electrocatalysis.

ACS Nano 2022, 16, 9523-9534. (影响因子: 15.881)

50. Kong, Y.; Wu, L.; Yang, X. X.; Li, Y.; Zheng, S.; Yang, B.; Li, Z. J.; Zhang, Q. H.; Zhou, S. D.; Lei, L. C.; Wu, G.;* Hou, Y.* Accelerating Protonation Kinetics for Ammonia Electrosynthesis on Single Iron Sites Embedded in Carbon with Intrinsic Defects.

Adv. Funct. Mater. 2022, 32, 2205409. (影响因子: 15.621)

51. Zheng, W. Z.;# Wang, D. S.;# Zhang, Y. K.; Zheng, S. X.; Yang, B.; Li, Z. J.; Rodriguez, R. D.; Zhang, T.; Lei, L. C.; Yao, S. Y.; Hou, Y.* Promoting Industrial-level CO2 Electroreduction Kinetics via Accelerating Proton Feeding on a Metal-free Aerogel Electrocatalyst.

Nano Energy 2022, 105, 107980. (# contributed equally) (影响因子: 19.069)

52. Hu, X. Z.; Liu, Y. N.; Cui, W. J.; Yang, X. X.; Li, J. T.; Zheng, S. X.; Yang, B.; Li, Z. J.; Sang, X. H.; Li, Y. Y.; Lei, L. C.; Hou, Y.* Boosting industrial-level CO2 electroreduction of N-doped carbon nanofibers with confined tin-nitrogen active sites via accelerating proton transport kinetics.

Adv. Funct. Mater. 2022, 2208781. (影响因子: 19.924)

53. Lyu, S. L.;# Guo, C. X.;# Wang, J. N.; Li, Z. J.; Yang, B.; Lei, L. C.; Wang, L. P.; Xiao, J. P.;* Zhang, T.;* Hou, Y.* Exceptional Catalytic Activity of Oxygen Evolution Reaction via Two-Dimensional Graphene Multilayer Confined Metal-Organic Frameworks.

Nat. Commun. 2022, 13, 6171. (# contributed equally) (影响因子: 17.694)

54. Cheng, F. P.; Peng, X. Y.; Hu, L. Z.; Yang, B.; Li, Z. J.; Dong, C. L.; Chen, J. L.; Hsu, L. C.; Lei, L. C.; Zheng, Q.; Qiu, M.;* Dai, L. M.;* Hou, Y.* Accelerated Water Activation and Stabilized Metal-Organic Framework via Constructing Triangular Active-Regions for Ampere-Level Current Density Hydrogen Production.

Nat. Commun. 2022, 13, 6486. (影响因子: 17.694)

55. Wang, K. X.; Wang, Y. L.; Yang, B.; Li, Z. J.; Qin, X. T.; Zhang, Q. H.; Lei, L. C.; Qiu, M.;* Wu, G.;* Hou, Y.* Highly active ruthenium site stabilized by modulating electron-feeding for sustainable acidic oxygen evolution electrocatalysis.

Energy Environ. Sci. 2022, 15, 2356-2365. (影响因子: 33.25)

56. Li, Y.; Ji, Y. X.; Zhao, Y. J.; Chen, J. X.; Zheng, S. X.; Sang, X. H.; Yang, B.; Li, Z. J.; Lei, L. C.; Wen, Z. H.;* Feng, X. L.;* Hou, Y.* Local Spin-state Tuning of Iron Single-Atom Electrocatalyst by S-coordinated Doping for Kinetics-boosted Ammonia Synthesis.

Adv. Mater. 2022, 34, 2202240. (影响因子: 25.809)

57. Yang, X. X.; Zeng, Y. C.; Alnoush,W.; Hou, Y.* Higgins, D.;* Wu, G.* Tuning Two-Electron Oxygen-Reduction Pathways for H2O2 Electrosynthesis via Engineering Atomically Dispersed Single Metal Site Catalysts.

Adv. Mater. 2022, 2107954. (影响因子: 25.809)

58. Yang, X. X.;# Mukherjee, S.;# O'Carroll, T.; Hou, Y.;* Singh, M. R.; Gauthier, J. A.; Wu, G.* Achievements, Challenges, and Perspectives on Nitrogen Electrochemistry for Carbon-Neutral Energy Technologies.

Angew. Chem. Int. Ed. 2022, e202215938. (影响因子: 12.257)

2023

59. Chen, J. Y.;# Wang, D. S.;# Yang, X. X.; Cui, W. J.; Sang, X. H.; Zhao, Z. L.; Wang, L. G.; Li, Z. J.; Yang, B.; Lei, L. C.; Zheng, J. Y.; Dai, L. M.; Hou, Y.* Accelerated Transfer and Spillover of Carbon Monoxide through Tandem Catalysis for Kinetics-boosted Ethylene Electrosynthesis.

Angew. Chem. Int. Ed. 2023, 62, e202215406. (影响因子: 16.823)

60. Chen, S. F.;# Liang, L. J.;# Li, Y. Y.; Wang, D. Y.; Lu, J. G.; Zhan, X. L.; Hou, Y.;* Zhang, Q. H.;* Lu, J.* Brain Capillary-Inspired Self-Assembled Covalent Organic Framework Membrane for Sodium-Sulfur Battery Separator.

Adv. Energy Mater. 2023, 13, 2204334. (影响因子: 29.698)

61. Zheng, W. Z.;# Wang, D. S.;# Cui, W. J.; Sang, X. H.; Qin, X. T.; Zhao, Z. L.; Li, Z. J.; Yang, B.; Zhong, M.; Lei, L. C.; Zheng, Q.; Yao, S. Y.; Wu, G.;* Hou, Y.* Accelerating Industrial-level CO2 Electroreduction Kinetics on Isolated Zinc Centers via Sulfur-boosting Bicarbonate Dissociation.

Energy Environ. Sci. 2023, 16, 1007-1015. (影响因子: 39.714)

62. Wang, K. X.;# Cao, J. H.# Yang, X. X.; Sang, X. H.; Yao, S. Y.; Xiang, R.; Yang, B.; Li, Z. J.; O'Carroll, T.; Zhang, Q. H.; Lei, L. C.; Wu, G.;* Hou, Y.* Kinetically accelerating elementary steps via bridged Ru-H state for the hydrogen-evolution in anion-exchange membrane electrolyzer.

Adv. Funct. Mater. 2023, 33, 2212321. (影响因子: 19.924)

63. Peng, X. Y.; Zeng, L. B.; Wang, D. S.; Liu, Z. B.; Li, Y.; Li, Z. J.; Yang, B.; Lei, L. C.; Dai, L. M.;* Hou, Y.* Electrochemical CN coupling of CO2 and nitrogenous small molecules for electrosynthesis of organonitrogen compounds.

Chem. Soc. Rev. 2023, 52, 2193-2237.(影响因子: 60.615)Invited Review

64. Li, Y.; Chen, J. X.; Ji, Y. X.; Zhao, Z. L.; Cui, W. J.; Sang, X. H.; Cheng, Y.; Yang, B.; Li, Z. J.; Zhang, Q. H.; Lei, L. C.; Wen, Z. H.;* Dai, L. M.;* Hou, Y.* Single-atom Iron Catalyst with Biomimetic Active Center to Accelerate Proton Spillover for Medical-level Electrosynthesis of H2O2 Disinfectant.

Angew. Chem. Int. Ed. 2023, 62, e202306491. (影响因子: 16.823)

65. Zheng, W. Z.; Yang, X. X.; Li, Z. J.; Yang, B.; Zhang, Q. H.; Lei, L. C.; Hou, Y.* Designs of Tandem Catalysts and Cascade Catalytic Systems for CO2 Upgrading.

Angew. Chem. Int. Ed. 2023, 62, e202307283. (影响因子: 16.823) Invited Review

66. He, F.; Zheng, Q.; Yang, X. X.; Wang, L. G.; Zhao, Z. L.; Xu, Y. K.; Hu, L. Z.; Kuang, Y. B.; Yang, B.; Li, Z. J.; Lei, L. C.; Qiu, M.;* Lu, J.;* Hou, Y.* Spin State Modulation on Metal-Organic Frameworks for Electrocatalytic Oxygen Evolution.

Adv. Mater. 2023, 35, 2304022. (影响因子: 32.086)

67. Wang, L.; Liu, Y. N.; Chen, Z. F.; Dai, Q. Z.;* Dong, C. L.; Yang, B.; Li, Z. J.; Hu, X. B.; Lei, L. C.; Hou, Y.* Theory-guided Design of Electron-deficient Ruthenium Cluster for Ampere-level Current Density Electrochemical Hydrogen Evolution.

Nano Energy 2023, 115, 108694. (影响因子: 19.069)

2024

68. Wang, X. Y.;# Chen, Y. J.;# Li, F.;# Miao, R. K.;# Huang, J. N.; Zhao, Z. L.; Li, X. Y.; Dorakhan, R.; Chu, S. L.; Wu, J. H.; Zheng, S. X.; Ni, W. Y.; Kim, D.; Park, S.; Liang, Y. X.; Ozden, A.; Ou, P. F.; Hou, Y.;* Sinton, D.;* Sargent, E. H.* Site-selective protonation enables efficient carbon monoxide electroreduction to acetate.

Nat. Commun. 2024, 15, 616 (# contributed equally) (影响因子: 17.694)

69. Kou, Z. H.; Liu, Y. N.; Cui, W. J.; Yang, B.; Li, Z. J.; Rodriguez, R. D.; Zhang, Q. H.; Dong, C. L.; Sang, X. H.; Lei, L. C.; Zhang, T.;* Hou, Y.* Electronic Structure Optimization of Metal-Phthalocyanine via Confining Atomic Ru for All-pH Hydrogen Evolution.

Energy Environ. Sci. 2024, 17, 1540-1548. (影响因子: 39.714)

70. Wang, L.; Tao, H. L.; Liu, Y. N.; Chen, Y.; Chen, Z. F.; Yang, X. X.; Yang, B.; Li, Z. J.; Dai, Q. Z.;* Lian, C.;* Lei, L. C.; Hou, Y.* Multiscale Modulation of Ultra-small Ruthenium Anchored on Bimetallic Sulfides for Seawater Electrolysis at Ampere-level Current Density.

Nano Energy, 2024, 124, 109481. (影响因子: 19.069)


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