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教授
李楠
基本情况
姓名: 李楠
性别:
职称: 教授
所在系别: 无机非金属材料工程系
是否博导:
最高学历: 研究生
最高学位: 博士
电话:
Email:
详细情况
所在学科专业: 材料学
所研究方向: 无机功能材料的制备与性质研究,包括新型电极材料与电催化材料,功能化介孔材料
讲授课程: 高分子材料
无机非金属材料专业英语
英语科技论文写作(研究生)
无机材料表面与界面(研究生)
教育经历: • 1995年-1999年,吉林大学,化学学院 精细化工专业,工学学士
• 1999年-2004年,吉林大学,化学学院 无机合成与制备化学国家重点实验室(硕博连读),理学博士
工作经历: • 2004年-至今,吉林大学,材料科学与工程学院无机非金属材料系 教师
• 2006年-2008年,日本高知大学,理学部 附属水热化学研究所,博士后研究员
科研项目: 1.过渡金属硫/硒化物的合成及其作为直接甲醇燃料电池阴极催化剂的研究( 2010.1-2012.12) 19万元, 国家自然科学基金(青年) 项目负责人
2. 准格尔矿区粉煤灰综合利用工业化技术系统研发—超细氢氧化铝、超细氧化铝生产工艺研究 (2009.9-2011.8) 160万元 神华集团 项目负责人
3. 准格尔矿区粉煤灰综合利用工业化中试关键技术系统研发—复合助剂活化法工艺研究 (2012.5-2014.1) 100万元 神华集团 项目负责人
4. 铂族金属硫化物纳米催化剂的低毒、高效合成方法与催化性质研究 (2011.1-2013.12) 3.5万元 教育部留学回国人员科研启动经费 项目负责人
5. 有序介孔与分级孔过渡金属磷化物的构筑及其电催化析氢性能研究 (2017.01-2020.12) 64万元,国家自然科学基金 面上项目 项目负责人
学术论文: 1. Li, N.; Liu, X.; Li, G.D.; Wu, Y.; Gao, R.; Zou, X., Vertically grown CoS nanosheets on carbon cloth as efficient hydrogen evolution electrocatalysts. International Journal of Hydrogen Energy, 2017, 42, 9914-9921.
2. Gao, Z.; Gao, Q.;Liu, Z.;Zhang, C.;Zhang, X.;Liu, X.; Wang, R.;Li, N.* High-efficiency hydrogen evolution reaction catalyzed by iron phosphide nanocrystals. RSC Advances 2016, 6, 114430-114435.
3. Li, Y.; Li, N.*; Yanagisawa, K.; Li, X.; Yan, X., Hydrothermal synthesis of highly crystalline RuS2 nanoparticles as cathodic catalysts in the methanol fuel cell and hydrochloric acid electrolysis. Materials Research Bulletin 2015, 65, 110-115.
4. Li, Y.; Li, N.*; Yanagisawa, K.; Ding, X.; Li, X., In situ synthesis of well crystallized rhodium sulfide/carbon composite nanospheres as catalyst for hydrochloric acid electrolysis. Journal of Materials Chemistry A 2014, 2, (5), 1484-1492.
5. Li, Y.; Li, N.*; Yanagisawa, K.; Ding, X.; Li, X.; Wei, Y.; Yan, X., Spherical Rh17S15@C and Rh@C core-shell nanocomposites: Synthesis, growth mechanism and methanol tolerance in oxygen reduction reaction. Chemical Engineering Journal 2013, 228, 45-53.
6. Li, Y.; Yan, X.; Yan, W.; Lai, X.; Li, N.; Chi, Y.; Wei, Y.; Li, X., Hierarchical tubular structure constructed by mesoporous TiO2 nanosheets: Controlled synthesis and applications in photocatalysis and lithium ion batteries. Chemical Engineering Journal 2013, 232, 356-363.
7. Chi, Y.; Yuan, Q.; Li, Y.; Zhao, L.; Li, N.; Li, X.; Yan, W., Magnetically separable Fe3O4@SiO2@TiO2-Ag microspheres with well-designed nanostructure and enhanced photocatalytic activity. Journal of Hazardous Materials 2013, 262, 404-411.
8. Yuan, Q.; Li, N.; Chi, Y.; Geng, W.; Yan, W.; Zhao, Y.; Li, X.; Dong, B., Effect of large pore size of multifunctional mesoporous microsphere on removal of heavy metal ions. Journal of Hazardous Materials 2013, 254, 157-165.
9. Wang, W.; Li, N.; Chi, Y.; Li, Y.; Yan, W.; Li, X.; Shao, C., Electrospinning of magnetical bismuth ferrite nanofibers with photocatalytic activity. Ceramics International 2013, 39, (4), 3511-3518.
10. Zhao, L.; Chi, Y.; Yuan, Q.; Li, N.; Yan, W.; Li, X., Phosphotungstic acid anchored to amino-functionalized core-shell magnetic mesoporous silica microspheres: A magnetically recoverable nanocomposite with enhanced photocatalytic activity. Journal of Colloid and Interface Science 2013, 390, 70-77.
11. Chi, Y.; Geng, W.; Zhao, L.; Yan, X.; Yuan, Q.; Li, N.*; Li, X.*, Comprehensive study of mesoporous carbon functionalized with carboxylate groups and magnetic nanoparticles as a promising adsorbent. Journal of colloid and interface science 2012, 369, (1), 366-72.
12. Chi, Y.; Yuan, Q.; Li, Y.; Tu, J.; Zhao, L.; Li, N.*; Li, X.*, Synthesis of Fe3O4@SiO2-Ag magnetic nanocomposite based on small-sized and highly dispersed silver nanoparticles for catalytic reduction of 4-nitrophenol. Journal of Colloid and Interface Science 2012, 383, 96-102.
13. Yuan, Q.; Li, N.; Geng, W.; Chi, Y.; Li, X., Preparation of magnetically recoverable Fe3O4@SiO2@meso-TiO2 nanocomposites with enhanced photocatalytic ability. Materials Research Bulletin 2012, 47, (9), 2396-2402.
14. Wang, W.; Yuan, Q.; Chi, Y.; Shao, C.-l.; Li, N.; Li, X.-t., Preparation and Photocatalysis of Mesoporous TiO2 Nanofibers via an Electrospinning Technique. Chemical Research in Chinese Universities 2012, 28, (4), 727-731.
15. Tu, J.; Li, N.; Geng, W.; Wang, R.; Lai, X.; Cao, Y.; Zhang, T.; Li, X.; Qiu, S., Study on a type of mesoporous silica humidity sensing material. Sensors and Actuators B-Chemical 2012, 166, 658-664.
16. Chi, Y.; Zhao, L.; Yuan, Q.; Yan, X.; Li, Y.; Li, N.*; Li, X.*, In situ auto-reduction of silver nanoparticles in mesoporous carbon with multifunctionalized surfaces. Journal of Materials Chemistry 2012, 22, (27), 13571-13577.
17. Chi, Y.; Zhao, L.; Yuan, Q.; Li, Y.; Zhang, J.; Tu, J.; Li, N.*; Li, X.*, Facile encapsulation of monodispersed silver nanoparticles in mesoporous compounds. Chemical Engineering Journal 2012, 195, 254-260.
18. Tao, H.; Yanagisawa, K.; Zhang, C.; Ueda, T.; Onda, A.; Li, N.; Shou, T.; Kamiya, S.; Tao, J., Synthesis and growth mechanism of monodispersed MoS2 sheets/carbon microspheres. Crystengcomm 2012, 14, (9), 3027-3032.
19. Li, N.*; Yanagisawa, K., Sub-micrometer sized yttrium oxide fibers prepared through hydrothermal reaction. Materials Research Bulletin 2011, 46, (3), 428-431.
20. Yuan, Q.; Li, N.; Geng, W.; Chi, Y.; Tu, J.; Li, X.; Shao, C., Humidity sensing properties of mesoporous iron oxide/silica composite prepared via hydrothermal process. Sensors and Actuators B-Chemical 2011, 160, (1), 334-340.
21. Li, Y.; Li, N.; Tu, J.; Li, X.; Wang, B.; Chi, Y.; Liu, D.; Yang, D., TiO2 supported on rod-like mesoporous silica SBA-15: Preparation, characterization and photocatalytic behaviour. Materials Research Bulletin 2011, 46, (12), 2317-2322.

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