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温广武

2021-09-08 管理员 阅读 7033

温广武:男,1963年6月出生,黑龙江省明水县人,博士,教授,博士生导师。入选国家“百千万人才工程”、国家有突出贡献中青年专家、享受国务院政府特殊津贴、山东省“泰山学者”特聘专家。现任太阳成集团校学术委员会主任,工程陶瓷研究院经理。

研究方向:特种陶瓷与碳材料及其在航天、储能、电子电器等工程上的应用。

主讲本科生课程:材料科学与工程专业新生研讨课、先进陶瓷材料。

联系方式:wengw@sdut.edu.cn

学习工作经历

2016.09-至今:太阳成集团 44118太阳成城集团教授、校学术委员会主任、工程陶瓷研究院经理

1993.12-2016.08:在哈尔滨工业大学工作,先后任44118太阳成城集团讲师、副教授(1997)、教授(2000)、博导(2001),其中2004.09-2016.08先后任哈尔滨工业大学(威海)44118太阳成城集团副经理、经理,副董事长

1989.03-1993.02:哈尔滨建筑大学建筑材料系助教、讲师

1984.08-1986.08:齐齐哈尔轻工学院轻工系助教

2003.12-2004.02:英国剑桥大学材料科学与冶金系访问学者

2002.11-2003.03:英国牛津大学材料系访问学者

1999.03-2000.03:英国伦敦大学皇后玛丽学院材料系访问学者;

1997.04-1999.02哈尔滨建筑大学土木水利博士后流动站博士后

1993.03-1996.12:哈尔滨工业大学金属材料与热处理专业博士研究生。

学术成果

主持完成国家自然科学基金6项、“863计划”2项、省部级及重点企业合作项目20项。发表SCI收录论文150余篇,授权发明专利80项。获国家技术发明二等奖1项,省部级科技一等奖2项,二等奖3项。

代表论文(通讯作者和第一作者):

1. High-yield production of non-layered 2D carbon complexes: Thickness manipulation and carbon nanotube branches for enhanced lithium storage properties. Journal of Energy Chemistry. 2021, 59, 19-29.

2. Boosting capacitive deionization performance of commercial carbon fibers cloth via structural regulation based on catalytic-etching effect. Energy & Environmental Materials. 2021, DOI: 10.1002/eem2.12276.

3. Sugar blower protocol enabling superior electromagnetic wave absorption of porous micro pipeline carbon materials. J. Mater. Chem. A. 2021, 9, 16395

4. Single-Phase Mixed Transition Metal Carbonate Encapsulated by Graphene: Facile Synthesis and Improved Lithium Storage Properties.  Advangced Functional Materials. 2018, 17058175.

5. Mass Production of Large-Sized, Nonlayered 2D Nanosheets: Their Directed Synthesis by a Rapid “Gel-Blowing” Strategy, and Applications in Li/Na Storage and Catalysis. Advanced Materials. 2018, 201803569. DOI:10.1002/adma.

6. MOF-derived Zn-Mn mixed oxides@carbon hollow disks with robust hierarchical structure for high-performance lithium-ion batteries. J. Mater. Chem. A. 2018;6(7):2974-83.

7. Microscopic scale evidence of phase transformation process in barium aluminosilicate glass-ceramic. J. Euro. Ceram. Soc.  2018;38(2):727-33.

8. Hybrid aerogel-derived carbon/porous reduced graphene oxide dual-functionalized NiO for high-performance lithium storage. Chemical Engineering Journal. 2018; 332:479-85.

9. General synthesis of graphene-supported bicomponent metal monoxides as alternative high performance Li-ion anodes to binary spinel oxides. J. Mater. Chem. A. 2017;5(4):1687-97.

10. MnCO3/Mn3O4/reduced graphene oxide ternary anode materials for lithium-ion batteries: facile green synthesis and enhanced electrochemical performance. J. Mater. Chem. A.  2017;5(32):17001-11.

11. Li-ion doped graphene/carbon nanofiber porous architectures for electrochemical capacitive desalination. Desalination. 2016379: 118-125

12. Equivalent circuit model analysis on electrochemical impedance spectroscopy of lithium metal batteries. Journal of Power Sources. 2015, 294: 67-74

13. Effect of boron doping on the thermal properties of carbon fibers reinforced lithium aluminosilicate matrix composites. J. Euro. Ceram. Soc. 2016, 35(9): 2555-2562

14. Effect of graphite intercalation compounds in the interfacial zone on the mechanical and thermal properties of unidirectional carbon fiber reinforced spodumene composite. Acta Materialia. 2013, 61(9): 3522-3532

15. Novel coaxial SiC-SiO2-BN nanocable: large-scale synthesis, formation mechanism and photoluminescence property. J. Mater. Chem. A. 2011, 21(38): 14432-14440

16. Synthesis of carbon microtube buckypaper by a gas pressure enhanced chemical vapor deposition method. Carbon. 2011, 49: 4067-4069

17. Ultra-long Sialon nanobeltslarge scale synthesis via pressure enhanced CVD process and photoluminescence characteristics. J. Mater. Chem. 2011, 21: 5985-5991

18. Formation of ZrC ablation protective coatings on carbon material by tungsten inert gas cladding technique. Corrosion Science. 2010: 52(9): 3018-3022

19. Effects of P2O5 and heat treatment on crystallization and microstructure in lithium disilicate glass ceramics. Acta Materialia.  2008, 56(3): 549-558

20. Effects of P2O5 and sintering temperature on microstructure and mechanical properties of lithium disilicate glass-ceramics. Acta Materialia.  2007, 55(10): 3583-3591

21. Increased high temperature strength and oxidation resistance of Al4SiC4 ceramics. J. Euro. Ceram. Soc.  2006, 26(7): 1281-1286

22. Reaction-formed W2B5/C composites with high performance. Carbon. 2006, 44(5): 1005-1012

23. Reaction synthesis of TiB2-TiC composites with enhanced toughness. Acta Materialia. 2001, 49(8): 1463-1470

24. Wen G, Wu GL, Lei TQ, et al. Co-enhanced SiO2-BN ceramics for high-temperature dielectric applications. J. Euro. Ceram. Soc. 2000, 20(12): 1923-1928

获得奖励

国家技术发明二等奖、航天工业总公司科技进步一等奖及二等奖、国防科技二等奖、黑龙江省自然科学一等奖、黑龙江省技术发明二等奖

社会兼职

中国机械工程学会工程陶瓷材料专业委员会副主任委员;中国非金属矿协会石墨专业专家委员会副主任委员;中国石墨产业发展联盟副理事长;中国硅酸盐学会陶瓷分会常务理事;中国医疗器械行业协会3D打印医疗器械专业委员会理事;“山东省先进陶瓷创新共同体”首席专家;山东省教育厅材料科学与工程学科组教指委委员;山东省科技厅第一届新材料领域咨询委员会委员。


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