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科研团队

纳米材料与电化学技术团队

团队名称:

纳米材料与电化学技术团队

团队负责人:

高发明,博士,教授,博士生导师,入选2012年度教育部高层次人才特聘教授,入选国家有突出贡献中青年专家、“百千万人才工程”国家级人选 、国务院享受政府特殊津贴专家、教育部首批"新世纪优秀人才支持计划"、河北省省管优秀专家,河北省有突出贡献中青年专家,河北省优秀留学回国人员。兼任中国化工学会储能工程委员会理事、中国化工学会化工新材料专业委员会委员、中国核物理学会穆斯堡尔谱学专业委员会委员、河北省化学会副理事长、河北省高等学校化学专业教学指导委员会副主任委员、河北省高等学校化工制药专业教学指导委员会副主任委员。长期从事化学化工领域的研究,主要致力于电催化、纳米催化和超硬材料等方面的研究。获国家自然科学二等奖、教育部自然科学一等奖、吉林省科技进步一等奖、河北省科技进步二等,获全国百篇优秀博士学位论文奖。

团队成员:

卢雄,博士,讲师。

孟莹,博士,讲师。

王栋,博士,讲师。

王远哲,博士,师资博士后。

主要研究方向:

1. 电化学生物传感器

2. 新能源电池材料

3. 电解水催化剂

4. 燃料电池催化剂

研究生招生方向:

各研究方向均可以招生,招生专业包括:化学工艺、化学工程、工业催化、材料化学、材料化学工程专业学术型研究生,化学工程、材料化学、材料化学工程专业型硕士研究生

负责国家重大项目:

1. 类淀粉蛋白诱导高活性-维亚纳米(sub-1nm)铂基合金的合成,生长机理及电催化性能(项目编号21875205)

2. 超高体积比电容微纳米石墨化碳球的设计合成及其储能研究(项目编号21671168)

3. 超高长径比的超细贵金属单晶纳米线可控合成,生长机理及其性能研究(项目编号21371149)

4. 新型四方BC2N超硬化合物纳米晶和大颗粒单晶的温和条件合成和性能研究(项目编号21071122)

研究成果:

近年发表的相关论文:

[1] Mi, Y. P.; Zhao, Y. S.; Chen, J. M.; Li, X. L.; Yang, Y. X.; Gao, F. M., Ternary heterostructures of 1D/2D/2D CuCo2S4/CuS/Ti3C2 MXene: Boosted amperometric sensing for chlorpyrifos. J. Hazard. Mater. 2022, 438.

[2] Zhao, Y. S.; Li, X. L.; Chen, J. M.; Lu, X.; Yang, Y. X.; Song, D. D.; Gao, F. M., Porous hierarchical peony-like cobalt-based bimetallic oxides structured by ultrathin nanosheets for highly sensitive electrochemical pesticides detection. Sensors and Actuators B-Chemical 2022, 352.

[3] Zhao, Y. S.; Zuo, X.; Lu, X.; Li, Z. P.; Gao, F. M., Hierarchical porous hollow N-doped Cu-based MOF derivatives as highly sensitive electrochemical sensing platform for pesticides detection. Sensors and Actuators B-Chemical 2022, 362.

[4] Song, D. D.; Jiang, X. Y.; Li, Y. S.; Lu, X.; Luan, S. R.; Wang, Y. Z.; Li, Y.; Gao, F. M., Metal - organic frameworks-derived MnO2/Mn3O4 microcuboids with hierarchically ordered nanosheets and Ti3C2 MXene/Au NPs composites for electrochemical pesticide detection. J. Hazard. Mater. 2019, 373, 367-376.

[5] Lu, X.; Tao, L.; Li, Y. S.; Huang, H. M.; Gao, F. M., A highly sensitive electrochemical platform based on the bimetallic Pd@Au nanowires network for organophosphorus pesticides detection. Sensors and Actuators B-Chemical 2019, 284, 103-109.

[6] Song, D.; Jiang, X.; Li, Y.; Lu, X.; Luan, S.; Wang, Y.; Gao, F. Metal− organic frameworks-derived MnO2/Mn3O4 microcuboids with hierarchically ordered nanosheets and Ti3C2 MXene/Au NPs composites for electrochemical pesticide detection. Journal of hazardous materials, 2019, 373, 367-376.

[7] Zhao, Y.; Tao, L.; Dang, W.; Wang, L.; Xia, M.; Wang, B.; Zhao, Y. Highindexed PtNi alloy skin spiraled on Pd nanowires for highly efficient oxygen reduction reaction catalysis. Small, 2019,15(17), 1900288.

[8] Lu, X.; Tao, L.; Song, D. D.; Li, Y.; Gao, F. M., Bimetallic Pd@Au nanorods based ultrasensitive acetylcholinesterase biosensor for determination of organophosphate pesticides. Sensors and Actuators B-Chemical 2018, 255, 2575-2581.

[9] Song, D. D.; Wang, Y. Z.; Lu, X.; Gao, Y. K.; Li, Y.; Gao, F. M., Ag nanoparticles-decorated nitrogen-fluorine co-doped monolayer MoS2 nanosheet for highly sensitive electrochemical sensing of organophosphorus pesticides. Sensors and Actuators B-Chemical 2018, 267, 5-13.

[10] Tang, Y.; Li, Y.; Guo, W.; Wang, J.; Li, X.; Chen, S.; Gao, F. A highly ordered multi-layered hydrogenated TiO 2-II phase nanowire array negative electrode for 2.4 V aqueous asymmetric supercapacitors with high energy density and long cycle life. Journal of Materials Chemistry A, 2018, 6(2), 623-632.

[11] Guo, W.; Li, Y.; Tang, Y.; Chen, S.; Liu, Z.; Wang, L.; Gao, F. TiO2 nanowire arrays on titanium substrate as a novel binder-free negative electrode for asymmetric supercapacitor. Electrochimica Acta, 2017, 229, 197-207.

[12] Wang, Y.; Liu, S.; Hao, X.; Zhou, J.; Song, D.; Wang, D.; Gao, F. Fluorine-and nitrogen-codoped MoS2 with a catalytically active basal plane. ACS Applied Materials & Interfaces, 2017, 9(33), 27715-27719.

[13] Chen, R.; Liu, L.; Zhou, J.; Hou, L.;Gao, F. High-performance nickel-cobalt-boron material for an asymmetric supercapacitor with an ultrahigh energy density. Journal of Power Sources, 2017, 341, 75-82.

[14] Tang, Y.; Chen, S.; Mu, S.; Chen, T.; Qiao, Y.; Gao, F. Synthesis of capsule-like porous hollow nanonickel cobalt sulfides via cation exchange based on the Kirkendall effect for high-performance supercapacitors. ACS Applied Materials & Interfaces, 2016, 8(15), 9721-9732.

[15] Huang, H.; Zhang, P.; Zhang, Z.; Liu, J.; Xiao, J.; Gao, F. Simultaneous removal of ammonia nitrogen and recovery of phosphate from swine wastewater by struvite electrochemical precipitation and recycling technology. Journal of cleaner production, 2016, 127, 302-310.

[16] Huang, H.; Zhang, P.; Zhang, Z.; Liu, J.; Xiao, J.; Gao, F. Simultaneous removal of ammonia nitrogen and recovery of phosphate from swine wastewater by struvite electrochemical precipitation and recycling technology. Journal of cleaner production, 2016, 127, 302-310.

[17] Zhou, J.; Lian, J.; Hou, L.; Zhang, J.; Gou, H.; Xia, M.; Gao, F. Ultrahigh volumetric capacitance and cyclic stability of fluorine and nitrogen co-doped carbon microspheres. Nature communications, 2015, 6(1), 1-8.

[18] Zhao, Y.; Ran, W.; He, J.; Huang, Y.; Liu, Z.; Liu, W.; Gao, F. Highperformance asymmetric supercapacitors based on multilayer MnO2/graphene oxide nanoflakes and hierarchical porous carbon with enhanced cycling stability. Small, 2015, 11(11), 1310-1319.

[19] Zhao, Y.; Ran, W.; He, J.; Song, Y.; Zhang, C.; Xiong, D. B.; Xia, Y. Oxygen-rich hierarchical porous carbon derived from artemia cyst shells with superior electrochemical performance. ACS applied materials & interfaces, 2015, 7(2), 1132-1139.

[20] Tang, Y.; Chen, T.; Yu, S.; Qiao, Y.; Mu, S.; Zhang, S.; Gao, F. A highly electronic conductive cobalt nickel sulphide dendrite/quasi-spherical nanocomposite for a supercapacitor electrode with ultrahigh areal specific capacitance. Journal of Power Sources, 2015, 295, 314-322.

[21] Zhao, Y.; Zhang, Z.; Ren, Y.; Ran, W.; Chen, X.; Wu, J.; Gao, F. Vapor deposition polymerization of aniline on 3D hierarchical porous carbon with enhanced cycling stability as supercapacitor electrode. Journal of Power Sources, 2015, 286, 1-9.