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安徽省杰出青年胡坤宏教授

 

胡坤宏

男(1975.11-), 安徽繁昌人,工学博士,教授,省教学名师、教坛新秀。
 
研究领域:
绿色润滑材料、摩擦学环境设计、催化材料、生物质资源利用
 
联系信息:
合肥市经济技术开发区锦绣大道99号www.9778.com化学与材料工程系(230022)

代表性科研项目:

1. 主持:二硫化钼纳米润滑剂的原位催化分散行为及其与发动机碳烟之间的润滑拮抗机制(52075144),2020年国家自然科学基金面上项目

2. 主持:二硫化钼复合润滑剂的摩擦诱导功能转变机制及其绿色设计(51375139),2013年国家自然科学基金面上项目

3. 主持:二硫化钼复合物改性金属-塑料滑动轴承的摩擦学性能及其绿色设计(1508085J10),2015年安徽省杰出青年基金项目

4. 主持:二硫化钼的形态尺寸效应及其在润滑材料设计中的应用研究(50905054),2009年国家自然科学基金青年基金项目

5. 主持:摩擦力诱导MoS2/TiO2润滑剂转变功能的机制(2011M500110),2011年中国博士后科学基金会面上一等资助

6. 主持:废白土负载过渡金属二元硫化物的微观协同润滑机制及其工业化应用(KJ2018ZD053).教育厅高校自然科学研究重大项

7. 主持:滑动轴承的自润滑设计与延寿技术(无编号),2014年安徽省教育厅高校优秀青年人才支撑计划项目


论文(第一及通讯编辑):

[1]  Lei Wang, Bin Shi, Enzhu Hu, Kunhong Hu*, Xianguo Hu. Reuse of spent bleaching clay for supporting MoS2 nanoparticles as a lubricating filler in ABS plastics. Tribology International, 2019, 131: 415-423.

[2]  Ziyan Lu, Zhenzhen Cao, Enzhu Hu, Kunhong Hu*, Xianguo Hu. Preparation and tribological properties of WS2 and WS2/TiO2 nanoparticles. Tribology International, 2019, 130: 308-316. 

[3]  K. H. Hu*, Y. Xu, E. Z. Hu, J. H. Guo, X. G. Hu. Rolling friction performance and functional conversion from lubrication to photo catalysis of hollow spherical nano-MoS2/nano-TiO2, Tribology International, 2016, 104: 131–139. 

[4]  Yong Xu, Enzhu Hu, Kunhong Hu*, Yufu Xu, Xianguo Hu. Formation of an adsorption film of MoS2 nanoparticles and dioctyl sebacate on a steel surface for alleviating friction and wear. Tribology International, 2015, 92: 172–183. 

[5]  Z. Y. Xu, Y. Xu, K. H. Hu*, Y. F. Xu, X. G. Hu. Formation and tribological properties of hollow sphere-like nano-MoS2 precipitated in TiO2 particles. Tribology International, 2015, 81: 139–148. 

[6]  K. H. Hu, M. Liu, Q. J. Wang, Y. F. Xu, S. Schraube, X. G. Hu*. Tribological properties of molybdenum disulfide nanosheets by monolayer restacking process as additive in liquid paraffin, Tribology International, 2009, 42: 33-39. 

[7]  K. H. Hu, J. Wang, S. Schraube, Y. F. Xu, X. G. Hu*, R. Stengler. Tribological properties of MoS2 nano-balls as filler in plastic layer of three-layer self-lubrication bearing materials, Wear, 2009, 266: 1198-1207.

[8]  K. H. Hu*, Z. Liu, F. Huang, X. G. Hu, C. L. Han. Synthesis and photocatalytic properties of nano-MoS2/kaolin composite, Chemical Engineering Journal, 2010, 162: 836-843. 

[9] Yueru Liu, Kunhong Hu*, Enzhu Hu, Jianhua Guo, Chengliang Han, Xianguo Hu, Double hollow MoS2 nano-spheres: Synthesis, tribological properties, and functional conversion from lubrication to photocatalysis. Applied Surface Science, 2017, 392, 1144-1152. 

[10] K. H. Hu*, X. G. Hu, X. J. Sun. Morphological effect of MoS2 nanoparticles on catalytic oxidation and vacuum lubrication, Applied Surface Science, 2010, 256: 2517-2523. 

[11] Z. Y. Xu, K. H. Hu*, C. L. Han, X. G. Hu, Y. F. Xu. Morphological influence of molybdenum disulfide on the tribological properties of rapeseed oil. Tribology Letters, 2013, 49: 513-524.

[12]  K. H. Hu*, X. G. Hu, J. Wang, Y. F. Xu, C. L. Han. Tribological properties of MoS2 with different morphologies in high-density polyethylene. Tribology Letters, 2012, 47: 79-90. 

[13] K. H. Hu*, F. Huang, X. G. Hu, Y. F. Xu, Y, Q, Zhou. Synergistic effect of nano-MoS2 and anatase nano-TiO2 on the lubrication properties of MoS2/TiO2 nano-clusters, Tribology Letters, 2011, 43: 77-87.

[14] K. H. Hu*, X. G. Hu, Y. F. Xu, F. Huang, J. S. Liu. The effect of morphology on the tribological properties of MoS2 in liquid paraffin, Tribology Letters, 2010, 40: 155-165. 

[15] K. H. Hu*, X. G. Hu, Y. F. Xu, J. D. Sun. Synthesis of nano-MoS2/TiO2 composite and its catalytic degradation effect on methyl orange, Journal of Materials Science, 2010, 45: 2640-2648. 

[16] E. Z. Hu, Y. Xu, K. H. Hu*, X. G. Hu. Tribological properties of 3 types of MoS2 additives in different base greases, Lubrication Science 2017, 29: 541-555.

[17] 胡坤宏*, S. Schraube, 徐玉福, 胡献国, R. Stengler. 2010, 二硫化钼改性聚甲醛自润滑复合材料的微观摩擦学性能研究, 摩擦学学报, 30(1): 38-45.

[18] 胡坤宏,徐勇,徐玉福,胡献国. 不同形态的二硫化钼润滑剂在离子液体中的摩擦学性能. 摩擦学学报,2015,35(2): 167-175. 

[19] K. H. Hu*, Y. K. Cai, X. G. Hu, Y. F. Xu. Synthesis and tribological properties of MoS2 composite nanoparticles with different morphologies, Surface Engineering, 2011, 27(7): 544-550. 

[20] Bin Shi, Jian Hua Guo, Xing An Cao, En Zhu Hu, K. H. Hu*. Effects of carbon soot from the combustion of diesel fuels on the tribological properties of lubricating oil and diesel fuels, Industrial Lubrication and Tribology, 2018, 70(3): 532-537. 

[21] X. A. Cao, G. Q. Shao, K. H. Hu*. Tribological modification of high-density polyethylene by using carbon soot from diesel combustion, Industrial Lubrication and Tribology, 2016, 68(5): 603–610. 

[22] K. H. Hu*, Y. K. Cai, X. G. Hu, Y. F. Xu. Synergistic lubrication of MoS2 particles with different morphologies in liquid paraffin, Industrial Lubrication and Tribology, 2013, 65: 143–149. 

[23] Lehua Cheng, Enzhu Hu, Xianquan Chao, Renfa Zhu, Kunhong Hu*, Xianguo Hu. MoS2/montmorillonite nanocomposite: Preparation, tribological properties, and inner synergistic lubrication. Nano, 2018, 13,(12):1850144. 

[24] H. K. Hu*, D. F. Zhao, J. S. Liu. Synthesis and application of nano-MoS2/bentonite composite for the removal of organic dye. Transactions of Nonferrous Metals Society of China, 2012, 22: 2484-2490. 

[25] K. H. Hu*, X. G. Hu, C. C. Hu. Exfoliation and restacking of MoS2 nanoplatelets in Co2+ solution. Materials Technology, 2013, 28: 169-173. 

[26] K. H. Hu*, Y. K. Cai, G. Q. Shao, X. L. Cui. Synthesis and photocatalytic properties of nano-MoS2/AlOOH composite, Reaction Kinetics, Mechanisms and Catalysis, 2011, 103:153-164. 

[27] K. H. Hu*, X. G. Hu, Y. F. Xu, X. Z. Pan. The effect of morphology and size on the photocatalytic properties of MoS2, Reaction Kinetics, Mechanisms and Catalysis, 2010, 100: 153-163. 

[28] K. H. Hu, X. G. Hu*. Formation, exfoliation and restacking of MoS2 nanostructures, Materials Science and Technology, 2009, 25(3): 407-414. 

[29] K. H. Hu, Y. R. Wang, X. G. Hu*, and H. Z. Wo, Preparation and Characterisation of Ball-like MoS2 Nanoparticles, Materials Science and Technology, 2007, 23(2):242-246. 

[30] Z.Y. Xu, K. H. Hu*, F. Huang, C. L. Han, X. G. Hu. Morphological influence of molybdenum disulfide nanoparticles on powder lubrication and photocatalysis, Asian Journal of Chemistry, 2013, 25: 5830–5832. 

[31] Y. K. Cai, Y. Xu, X. Q. Wang, K. H. Hu*. Synthesis of molybdenum disulfide from waste Mo materials. Asian Journal of Chemistry, 2012, 24(9): 4065–4067.

[32] K. H. Hu, X. G. Hu*, P. Jiang. Large-scale and morphology-controlled synthesis of nano-sized molybdenum disulfide particles by different sulfur sources, International Journal of Materials and Product Technology, 2010, 39: 378-387. 

[33] Z. Y. Xu, K. H. Hu*, Y. K. Cai, F. Huang, C. L. Han. Tribological properties of molybdenum disulphide nanoparticles in soybean oil, Tribology-Materials, Surfaces & Interfaces, 2014, 8: 179-186. 

 
著作
1. Kunhong Hu*, Xianguo Hu*, Yufu Xu, Xiaojun Sun, Yang Jiang. “Tribology of MoS2-Based Nanocomposites”, Chapter 3, In “Tribology of Nanocomposites” Edited by J. P. Davim, ISBN: 978-3-642-33881-6(Print), 978-3-642-33882-3(Online), Springer Berlin Heidelberg, Invited Book Chapter. 2013, 41–60.
2. K. H. Hu, X. G. Hu*, R. Stengler, “Tribology of Composite Materials with Inorganic Lubricants”, Chapter 3, In “Tribology of Composite Materials”, Edited by J. P. Davim, ISBN: 978-1-61668-319-1, Nova Science Publishers, Inc. , Invited Book Chapter. 2010.
 
获奖与荣誉

[1] 2019年安徽省学术和技术带头人后备人选

[2] 2018年2月,二硫化钼的形态尺寸效应与微粒间的协同机制,2017年度安徽省科学技术奖三等奖,排名:第一

[3] 2016年12月,教育厅“名师工作室”

[4] 2015年11月,第十六届安徽青年科技奖,个人

[5] 2015年11月,安徽省教学名师,个人

[6] 2014年1月,滑动轴承的超润滑设计与抗磨减摩机理研究,2013年度安徽省科学技术奖二等奖,排名:第二

[7] 2010年11月,省级教坛新秀奖,个人

[8] 2019年11月,高值化碳酸钙粉体制备成套技术研发与应用,非金属矿科学技术一等奖,排名第10

[9] 2019年11月,大型纵摆磨粉机关键技术及其工业化应用,非金属矿科学技术二等奖,排名第6

[10] 2017年,合肥市专业技术拔尖人才

[11] 2009年,www.9778.com青年教师教学基本功比赛理科组一等奖


专利:

[1]  胡坤宏 等. 一种产物形态可控的制备二硫化钼纳米微粒的方法, ZL201710303157.5.

[2]  胡坤宏 等.一种二硫化钨/二硫化钼/蒙脱土复合物及其制备方法,ZL201510416871.6.

[3]  胡坤宏 等. 发明名称:一种二硫化钨/二硫化钼复合物及其制备方法, ZL201510416794.4.

[4]  胡坤宏 等. 一种二硫化钨/凹凸棒复合物及其制备方法, ZL201510416850.4. 

[5]  胡坤宏 等. 一种二硫化钨/二氧化钛复合物及其制备方法, ZL201510416849.1.

[6]  胡坤宏 等. 一种抑制碳烟污染导致的酯类润滑油润滑性能下降的方法, ZL201510416795.9

[7]  胡坤宏 等. 氧化钨纳米粉体与金属钨纳米粉体的制备方法,ZL201210078592.X

[8]  胡坤宏 等. 一种二硫化钼/绢云母复合材料及其制备方法,ZL201210078581.1

[9]  胡坤宏 等. 一种二硫化钼/二氧化钛复合物及其制备方法, ZL201410369695.0

[10] 胡坤宏 等. 一种二硫化钼纳米球/二氧化钛复合材料及其制备方法, ZL201010524516.8

[11] 胡坤宏 等.一种实现二硫化钼纳米微粒在润滑油中达到溶液级分散的方法, ZL201610719321.6



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