周海青 - 湖南师范大学 - 物理与电子科学学院

个人简介

周海青，男，1983年8月出生，“潇湘学者”特聘教授，湖南省“青年百人计划”，湖湘高层次人才聚集工程创新人才。2007年在湖南师范大学获得理学学士，被免试保送到中科院国家纳米科学中心进行硕博连读，于2012年06月获得博士学位，导师是孙连峰研究员。2012年07月开始在美国莱斯大学知名碳材料专家、Smalley实验室James M. Tour教授课题组从事博士后研究，由新加坡南洋理工大学于霆教授资助。2014年01月开始在美国休斯敦大学M. D. Anderson终身讲席教授和德州超导中心主任任志锋教授课题组做博士后，开始专攻电解水析氢、析氧催化剂的实验、理论研究和应用化探索。至今在相关研究领域发表学术论文73篇，其中通讯作者4篇，第一作者25篇，5篇ESI高被引论文；第一作者论文累计影响因子为243，其中影响因子大于10的论文有10篇，包括有Nat. Commun.（2篇）、PNAS、Energy Environ. Sci.（3篇）、JACS、Nano Lett.等顶级刊物论文8篇。研究成果多次被Nature子刊Nature Catalysis、PNAS 和Chemical Society Reviews 等知名期刊正面引用，并被众多国内外媒体、网站诸如Science Daily，Green Car Congress，Phys. Org，《科技日报》和《人民网》等累计报道超过220次。论文总引用达到2310次，H指数27。此外，申请美国发明专利4项，中国专利2项。学术贡献二维材料，表界面催化，电解水制氢研究，高效催化剂材料教学情况本科生：大学物理，科技创新课程“电解水制氢的应用探索”；研究生：半导体物理与器件承担课题 1. 湖湘高层次人才聚集工程优秀青年创新人才项目，2018/11-2021/11年，主持 2. 湖南省“百人计划”青年项目，2017年，材料学科，主持 3. 湖南师范大学“潇湘学者”特聘教授启动经费，三维多孔催化剂材料用于电解水制氢研究，2018/09 - 2023/08，在研，主持代表性专利 1. Z. F. Ren,H. Q. Zhou, F. Yu, S. Chen. Three-dimensional porous NiSe2 foam-based hybrid catalysts for ultra-efficient hydrogen evolution reaction in water splitting,US Patent PCT/US2017/033143, Submitted. 2. Z. F. Ren, S. Chen, F. Yu,H. Q. Zhou. Synthesis of metal metaphosphate for catalysts for oxygen evolution reactions,US Patent U.S. Application No.62/470,847, Submitted. 3. Z. F. Ren, F. Yu,H. Q. Zhou, S. Chen. A simple strategy toward the fabrication of three-dimensional porous interwoven (Ni,Fe) oxyhydroxide nanorod arrays for efficient water splitting at low voltages,美国发明专利，2018年3月13日提交申请。 4. Z. F. Ren, F. Yu,H. Q. Zhou, S. Chen. Rational design of high-performance bifunctional FeP/Ni2P electrocatalysts for overall water splitting,美国发明专利，2018年3月13日提交申请。获奖情况 1. 湖湘高层次人才聚集工程优秀青年创新人才，2018年度 2. 湖南省“青年百人计划”, 2017年度

研究领域

研究领域主要包括电或光电催化分解水制氢、二维层状材料的单晶可控生长与物性表征、新型二氧化碳还原催化剂的设计与开发等。

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

湖南师范大学工作期间（*通讯作者,IF:影响因子） 1. J. Y. Sun, L. Yu, … H. Q. Zhou*, Highly efficient hydrogen evolution from a mesoporous hybrid of nickel phosphide nanoparticles anchored on cobalt phosphosulfide/phosphide nanosheet arrays,Small, 2018,Accepted. 2. F. Yu, L. Yu, … H. Q. Zhou*, Recent developments in earth-abundant and non-noble electrocatalysts for water electrolysis,Materials Today Physics, 2018,7, 121-138. 博后/博士期间发表论文（#共同一作） 3. H. Q. Zhou, F. Yu, J. Y. Sun, et al., Highly active catalyst derived from a 3D foam of Fe(PO3)2/Ni2P for extremely efficient water oxidation,PNAS 2017,114, 5607-5611 (IF=9.50). 4. H. Q. Zhou, F. Yu, Y. F. Huang, et al., Efficient hydrogen evolution by ternary molybdenum sulfoselenide particles on self-standing porous nickel diselenide foam,Nature Communications, 2016,7, 12765 (ESI高被引论文，IF=12.35). 5. H. Q. Zhou, F. Yu, Q. Zhu, et al., Water splitting by electrolysis at high current density under 1.6 volt,Energy & Environmental Science, 2018,11, 2858-2864 (IF=30.07). Featured on "“Back Cover"” and“Hot Paper” 6. F. Yu#,H. Q. Zhou#, Y. F. Huang, et al., High-performance bifunctional porous non-noble metal phosphide catalyst for overall water splitting,Nature Communications, 2018,9, 2551 (IF=12.35). “能源材料”领域的亮点论文 7. I. K. Mishra#,H. Q. Zhou#, J. Y. Sun, et al., Hierarchical CoP/Ni5P4/CoP microsheet arrays as a robust pH-universal electrocatalyst for efficient hydrogen generation,Energy & Environmental Science, 2018,11, 2246-2252 (IF=30.07). 8. H. Q. Zhou, F. Yu, Y. Y. Liu, et al., Outstanding hydrogen evolution reaction catalyzed by porous nickel diselenide electrocatalysts,Energy & Environmental Science, 2017,10, 1487-1492 (IF=30.07). 9. H. Q. Zhou, F. Yu, J. Y. Sun, et al., Highly efficient hydrogen evolution from edge-oriented WS2(1-x)Se2x particles on three-dimensional porous NiSe2 foam,Nano Letters, 2016,16, 7604-7609 (IF=12.08). 10. H. Q. Zhou, Y. M. Wang, R. He, et al., One-step synthesis of self-supported porous NiSe2/Ni hybrid foam: an efficient 3D electrode for hydrogen evolution reaction,Nano Energy, 2016,20, 29-36 (ESI高被引论文，IF=13.12). 11. H. Q. Zhou, C. Y. Qiu, Z. Liu, et al., Thickness-dependent morphologies of gold on n-layer graphenes,Journal of the American Chemical Society, 2010,132, 944-946 (IF=14.36). 12. I. K. Mishra#,H. Q. Zhou#, J. Y. Sun, et al., Highly efficient hydrogen evolution by self-standing nickel phosphide-based hybrid nanosheet arrays electrocatalyst,Materials Today Physics, 2018,4, 1-6. 13. H. Q. Zhou, F. Yu, J. Y. Sun, et al., Highly active and durable self-standing WS2/ graphene hybrid catalysts for hydrogen evolution reaction,Journal of Materials Chemistry A, 2016,4, 9472-9476 (IF=9.93). 14. H. Q. Zhou, J. X. Zhu, Z. Liu, et al., High thermal conductivity of suspended few-layer hexagonal boron nitride sheets,Nano Research, 2014,7, 1232-1240 . 15. H. Q. Zhou, F. Yu, Y. Y. Liu, et al., Thickness-dependent patterning of MoS2sheets with well-oriented triangular pits by heating in air,Nano Research, 2013,6, 703-711. 16. H. Q. Zhou, F. Yu, M. J. Chen, et al., The transformation of a gold film on few-layer graphene to produce either hexagonal or triangular nanoparticles during annealing,Carbon, 2013,52, 379-387. 17. H. Q. Zhou, F. Yu, H. C. Yang, et al., Layer-dependent morphologies and charge transfer of Pd on n-layer graphenes,Chemical Communications, 2011,47, 9408-9410. 18. H.Q. Zhou, F. Yu, D. S. Tang, et al., Large physisorption strain and edge modification of Pd on monolayer graphene,Nanoscale, 2013,5, 124-127. 19. H. Q. Zhou, C. Y. Qiu, F. Yu, et al., Thickness-dependent morphologies and surface-enhanced Raman scattering of Ag deposited on n-layer graphenes,Journal of Physical Chemistry C, 2011,115, 11348-11354. 20. H. Q. Zhou, H. C. Yang, C. Y. Qiu, et al., Experimental evidences of local magnetic moments at edges of n-layer graphenes and graphite,Journal of Physical Chemistry C, 2011,115, 15785-15792. 21. H. Q. Zhou, C. Y. Qiu, F. Yu, et al., Raman scattering of monolayer graphene: The temperature and oxygen doping effects,Journal of Physics D: Applied Physics, 2011,44, 185404. 22. J. Zhang, Y. Deng, ..., W. G. Chu*,H. Q. Zhou*, L. F. Sun*, Nanogap-engineerable electromechanical system for ultralow power memory,Advanced Science, 2018,5, 1700588. 23. Y. Luo,H. Q. Zhou, et al., Cu nanowires shelled with NiFe layered double hydroxide nanosheets as bifunctional electrocatalysts for overall water splitting,Energy & Environmental Science, 2017,10, 1820-1827 (ESI高被引、热点论文). 24. F. Yu,H. Q. Zhou, Z. Zhu, et al., Three-dimensional nanoporous iron nitride film as an efficient electrocatalyst for water oxidation,ACS Catalysis, 2017,7, 2052-2057 (ESI高被引论文). 25. L. Yu, I. K. Mishra, Y. L. Xie,H. Q. Zhou, et al., Ternary Ni2(1-x)Mo2xP nanowire arrays toward efficient and stable hydrogen evolution electrocatalysis under large-current-density,Nano Energy, 2018,53, 492-500. 26. L. Yu,H. Q. Zhou, et al., Amorphous NiFe layered double hydroxide nanosheets decorated on 3D nickel phosphide nanoarrays: a hierarchical core–shell electrocatalyst for efficient oxygen evolution,Journal of Materials Chemistry A, 2018, 6, 13619-13623. 27. Y. Luo,H. Q. Zhou, et al., Hierarchical Cu@ CoFe layered double hydroxide core-shell nanoarchitectures as bifunctional electrocatalysts for efficient overall water splitting, Nano Energy, 2017,41, 327-336. 28. X. J. Fan,H. Q. Zhou, X. Guo, WC nanocrystals grown on vertically aligned carbon nanotubes: an efficient and stable electrocatalyst for hydrogen evolution reaction,ACS Nano, 2015,9, 5125-5134. 29. F. Yu,H. Q. Zhou, H. C. Yang, et al., Controlled fabrication of intermolecular junctions of single-walled carbon nanotube/graphene nanoribbon,Small, 2013,9, 2405-2409. 30. C. Y. Qiu,H. Q. Zhou, B. C. Cao, et al., Raman spectroscopy of morphology-controlled deposition of Au on graphene,Carbon, 2013,59, 487-494. 31. F. Yu,H. Q. Zhou, Z. X. Zhang, et al., Experimental observation of radial breathing-like mode of grapheme nanoribbons,Applied Physics Letters, 2012,100, 101904. 32. F. Yu,H. Q. Zhou, Z. X. Zhang, et al., Preferential elimination of thin single-walled carbon nanotubes by iron etching,Chemical Communications, 2012,48, 1042-1044. 33. M. J. Chen,H. Q. Zhou, C. Y. Qiu, et al., Layer-dependent fluorination and doping of graphenes via plasma treatment,Nanotechnology, 2012,23, 115706. 34. C. Y. Qiu,H. Q. Zhou, M. J. Chen, et al., Investigation of n-layer graphenes as substrates for Raman enhancement of crystal violet,TheJournal of Physical Chemistry C, 2011,115, 10019-10025. 35. Z. Zhu, J. T. Yuan,H. Q. Zhou, et al., Excitonic resonant emission–absorption of surface Plasmons in transition metal dichalcogenides for chip-level electronic-photonic integrated circuits,ACS Photonics, 2016,3, 869-874. 36. X. J. Fan, Y. Y. Liu, Z. W. Peng, Z. H. Zhang,H. Q. Zhou, et al., Atomic H-induced Mo2C hybrid as an active and stable bifunctional electrocatalyst,ACS Nano,2017,11, 384-394. 37. X. J. Fan, Z. W. Peng, R. Q. Ye,H. Q. Zhou, et al., M3C (M: Fe, Co, Ni) nanocrystals encased in graphene nanoribbons: an active and stable bifunctional electrocatalyst for oxygen reduction and hydrogen evolution reactions,ACS Nano, 2015,9, 7407-7418 (ESI高被引论文). 38. Z. Yan, Y. Y. Liu, L. Ju, Z. W. Peng, J. Lin, G. Wang,H. Q. Zhou, et al., Large hexagonal bi- and trilayer graphene single crystals with varied interlayer rotations,Angew. Chem. Int. Ed. 2014,53, 1565-1569. 39. Z. Yan, Z. W. Peng, G. Casillas, J. Lin, C. S. Xiang,H. Q. Zhou, et al., Rebar graphene,ACS Nano, 2014,8, 5061-5068. 40. Z. Yan, Y. Y. Liu, J. Lin, Z. W. Peng, G. Wang, E. Pembroke,H. Q. Zhou, et al., Hexagonal graphene onion rings,Journal of the American Chemical Society, 2013,135, 10755-10762. 41. Z. Liu, K. H. Zheng, L. J. Hu, J. Liu, C. Y. Qiu,H. Q. Zhou, et al., Surface-energy generator of single-walled carbon nanotubes and usage in a self-powered system,Advanced Materials, 2010,22, 999-1003. 42. X. J. Fan, Z. W. Peng, Y. Yang,H. Q. Zhou, et al., Atomic H-induced cutting and unzipping of single-walled carbon nanotube carpets with a teepee structure and their enhanced supercapacitor performance,Journal of Materials Chemistry A, 2015,3, 10077-10084. 43. L. X. Xie, Z. Yang, J. Y. Sun,H. Q. Zhou, et al., Bi2Se3/C nanocomposite as a new sodium-ion battery anode material,Nano-Micro Letters, 2018,10, 50. 44. X. J. Fan, Z. W. Peng, J. J. Wang, R. Q. Ye,H. Q. Zhou, et al., Carbon-based composite as an efficient and stable metal-free electrocatalyst,Advanced Functional Materials, 2016,26, 3621-3629. 45. J. Y. Sun, F. Wang, Y. Liu, Y. Z. Ni,H. Q. Zhou, et al., Gold micromeshes as highly active electrocatalysts for methanol oxidation reaction,RSC Advances, 2017,7, 22479-22484.