姓名:贾梦秋
职称:教授/博导
办公电话:010-64451781
E-mail:jiamq@mail.buct.edu.cn
办公地址:科技大厦305房间
教育经历:
1983.9-1987.7 天津南开大学化学系物理化学专业,学士学位
1987.9-1988.6 北京语言学院出国培训部 外语培训
1988.10-1993.4俄罗斯门捷列夫化工大学物化专业攻读博士学位
1993.5-1994.5 俄罗斯门捷列夫化工大学 物化教研室访问学者
工作经历:
1994.6-1996.8 北京化工大学应用化学系 讲师
1996.9-2000.8 北京化工大学应化系 副教授
2000.9-2003.1 北京化工大学材料学院 副教授
2003.2-2015.7 北京化工大学研究生院 副院长(2004.9 晋升教授,2005.6遴选为博士研究生导师)
2015.7-2019.4 北京化工大学工会 常务副主席
2019.5- 北京化工大学生命学院 党委书记
主要研究领域:
储能材料与器件
先进二次电池(锂/钠/钾离子电池、锂-硫电池)
生物质的电化学催化
特种功能防腐涂料
主要成果:
作为负责人和主要参与人承担国家自然科学基金、北京市自然科学基金和企业合作项目多项,在Journal of Power Sources 、RSC Advances 、ACS Appl. Mater. Interfaces、Electrochimica Acta, Materials Letters 、Electroanalytical Chemistry、 Electrochemical Society 、Chem. Commun.等期刊上发表SCI论文80余篇。获得国家发明专利5项;3项成果获得省部级科技成果鉴定;编写国家标准一项。
代表性文章:
[1] Q. Yuan; Y. X. Chen; A. Li; Y. X. Li; X. H. Chen, M. Q. Jia*(贾梦秋), H. H. Song*, Polysulfides anchoring and enhanced electrochemical kinetics of 3D flower-like FeS/carbon assembly materials for lithium-sulfur battery, Applied Surface Science, 508, 145286, 2020
[2] M. Jia, Y. H. Jin, P. Z. Zhao, C. C. Zhao, M. Q. Jia*(贾梦秋), ZnSe nanoparticles decorated with hollow N-doped carbon nanocubes for high-performance anode material of sodium ion batteries, Journal of Alloys and Compounds, 831,154749, 2020
[3] M. Jia, Y. H. Jin, P. Z. Zhao, C. C. Zhao, M. Q. Jia*(贾梦秋), High electrochemical sodium storage performance of ZnSe/CoSe@N-doped porous carbon synthesized by the in-situ selenization of ZIF-8/67 polyhedron, Applied Surface Science, 518, 146259, 2020.
[4] C. L. Zhou, A. Li, D, K, Wang, E. Z. Pan, X. H. Chen, M. Q. Jia*(贾梦秋), H. H. Song*, MOF-templated self-polymerization of p-phenylenediamine to a polymer with a hollow box-assembled spherical structure, Chem. Commun., 55, 4071-4074, 2019.
[5] M. Jia, Y. H. Jin, P. Z. Zhao, C. C. Zhao, M. Q. Jia*(贾梦秋), L. Wang, X. M. He, Hollow NiCoSe2 microspheres@N-doped carbon as high-performance pseudocapacitive anode materials for sodium ion batteries, Electrochimica Acta, 310, 230-239, 2019.
[6] R. P. Zhang, J. J. Xu, M. Jia, E. Z. Pan, C. L. Zhou, M. Q. Jia*(贾梦秋), Ultrafine ZnS quantum dots decorated reduced graphene oxide composites derived from ZIF-8/graphene oxide hybrids as anode for sodium-ion batteries, Journal of Alloys and Compounds, 781, 450-459, 2019.
[7] E. Z. Pan,Y. H. Jin*, C. C. Zhao, M. Jia, Q. Q. Chang, R. P. Zhang, M. Q. Jia*(贾梦秋), Mesoporous Sn4P3-graphene aerogel composite as a high-performance anode in sodium ion batteries, Applied Surface Science, 475, 12-19, 2019.
[8] E. Z. Pan,Y. H. Jin*, C. C. Zhao, M. Jia, Q. Q. Chang, M. Q. Jia*(贾梦秋), L. Wang, X. M. He, Conformal Hollow Carbon Sphere Coated on Sn4P3 Microspheres as High-Rate and Cycle-Stable Anode Materials with Superior Sodium Storage Capability, ACS Applied Energy Materials, 2019.
[9] C. L. Zhou, A. Li, B. Cao, X. H. Chen, M. Q. Jia*(贾梦秋), H. H. Song*, The Non-Ignorable Impact of Surface Oxygen Groups on the Electrochemical Performance of N/O Dual-Doped Carbon Anodes for Sodium Ion Batteries, Journal of The Electrochemical Society, 165, A1447-A1454, 2018.
[10] Y. Wang, Y. H. Jin*, S. B. Li, J. Y. Han, Z. D. Ju, M. Q. Jia*(贾梦秋), Flower-like MoS2 supported on three-dimensional graphene aerogels as high-performance anode materials for sodium-ion batteries, Ionics, 24, 3431-3437, 2018.
[11] R. P. Zhang, Y. Wang, M. Q. Jia*(贾梦秋), J. J. Xu, E. Z. Pan, One-pot hydrothermal synthesis of ZnS quantum dots/graphene hybrids as a dual anode for sodium ion and lithium ion batteries, Applied Surface Science, 437, 375-383, 2018.
[12] C. L. Zhou, X Y. Wang, Y. H. Jin*, C. C. Zhao, Y. H. Duan, X. Z. He, M. Q. Jia*(贾梦秋), SnO2 quantum dots/graphene aerogel composite as high-performance anode material for sodium ion batteries, Materials Letters, 191, 169-172, 2017.
[13] Y. Wang, Y. H. Jin*, C. C. Zhao, Y. H. Duan, X. Z. He, M. Q. Jia*, SnO2 quantum dots/graphene aerogel composite as high-performance anode material for sodium ion batteries, Materials Letters, 191, 169-172, 2017.
[14]H. Liu, M. Q. Jia*(贾梦秋), B, Cao. R. J. Chen, X. Y. Lv, R. T. Tang, F. Wu, B. Xu*, Nitrogen-doped carbon/graphene hybrid anode material for sodium-ion batteries with excellent rate capability, Journal of Power Sources, 319, 195-201, 2016.
[15] H. Liu, M. Q. Jia*(贾梦秋), M. Wang, R. J. Chen, N. Sun, Q. Z. Zhu, F. Wu, B. Xu*, A floral variant of mesoporous carbon as an anode material for high performance sodium and lithium ion batteries, RSC Advances, 6, 78235-78240, 2016.