胡坤宏

發(fā)布者：化工系發(fā)布時間：2023-04-06瀏覽次數(shù)：12331

能源材料與化工學院碩士研究生導師簡介

姓名：胡坤宏 出生年月：1975.11

導師類別：碩 導職 稱：教 授

聯(lián)系電話：0551-62158385

電子郵箱：huk[email protected]; [email protected]

招生專業(yè)：材料科學與工程，材料與化工

研究團隊（實驗室/平臺/中心）：

材料安全與保護科研團隊,、高端裝備關鍵摩擦副安徽省重點實驗室

主要研究方向：

能源化工,、機械摩擦學,、潤滑材料,、催化材料,、聚合物基復合材料,、醫(yī)用包裝材料

個人簡歷：

胡坤宏,，安徽繁昌人，博士,、二級教授,，能源材料與化工學院院長，中國機械工程學會摩擦學分會理事,，省創(chuàng)新人才,，安徽省學術和技術帶頭人后備人選，安徽省教學名師,，省級教壇新秀,，合肥市專業(yè)技術拔尖人才；長期從事機械、材料,、化工,、環(huán)境等交叉學科的研究工作。

教育教學方面：先后承擔多項省級教學改革項目，獲安徽省教學成果獎一等獎2項、二等獎2項,，2010獲安徽省“教壇新秀”稱號,，2015年獲安徽省“教學名師”稱號，2016年建立“胡坤宏名師工作室”；指導的碩士生中有5名先后考取國內知名高校博士生，1名獲得國家公派留學資格，指導碩士研究生獲國家發(fā)明專利10項,。

科學研究方面：堅持創(chuàng)新，在潤滑材料及相關領域不斷探索,。在2009,、2013與2020年先后獲批3項國家自然科學基金項目資助，2015年獲安徽省杰出青年基金項目資助,，2021年作為負責人獲批安徽省重點研究與開發(fā)計劃項目1項,；以第一或通訊作者發(fā)表一類論文40余篇，參與出版英文專著2部,，以第一發(fā)明人獲國家發(fā)明專利15項,，2013，2018與2021年獲省部級科學技術二等獎2項與三等獎1項,，2015年獲安徽青年科技獎,，2017年獲第八批合肥市專業(yè)技術拔尖人才稱號，2019年獲批安徽省學術和技術帶頭人后備人選,。

主要科研成果（論文,、著作、專利等）：

部分代表性學術論文（*為通訊作者）

[1] Chonglong Zhong (研究生), Kunhong Hu*, Yong Xu, Enzhu Hu, Xianguo Hu. Lubrication antagonism mechanism of nano-MoS₂ and soot particles in ester base oil, Friction, DOI: 10.1007/s40544-024-0904-5 (Accepted).

[2] Zhixiang Li (研究生, 合肥工業(yè)大學博士在讀), Kunhong Hu*, Yong Xu, Enzhu Hu, Xianguo Hu. Dispersion and tribological properties of nano-MoS₂/sericite particles in di-n-butyl adipate synthesized by their own catalysis, Tribology International, 2022, 174:107760.

[3] Lei Wang (研究生), 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.

[4] Ziyan Lu (研究生, 合肥工業(yè)大學博士在讀), Zhenzhen Cao, Enzhu Hu, Kunhong Hu*, Xianguo Hu. Preparation and tribological properties of WS₂ and WS₂/TiO₂ nanoparticles. Tribology International, 2019, 130: 308-316.

[5] K. H. Hu*, Y. Xu (研究生, 上海交通大學博士畢業(yè)), 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.

[6] Yong Xu (研究生, 上海交通大學博士畢業(yè)), 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.

[7] 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.

[8] 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(1): 33–39.

[9] 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 (11-12): 1198–1207.

[10] Miao, Y (研究生, 國家公派德國留學攻讀博士學位)., Zhong, C., Li, Z. Xu, Y., Hu E., Hu K. Loss and Recovery of Nano-MoS2 Lubricity in Carbon Soot Contaminated Polyalphaolefin. Tribology Letters, 120 (2023). https://doi.org/10.1007/s11249-023-01793-6

[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] Kun Hong Hu, Xian Guo Hu, Yu Fu Xu, Fei Huang, Jun Sheng Liu, The effect of morphology on the tribological properties of MoS₂ in liquid paraffin, Tribology Letters, (2010) 40:155–165.

[14] 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.

[15] 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, 162 (2010) 836–843.

[16] Yueru Liu (研究生), 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.

[17] K. H. Hu, X. G. Hu, X. J. Sun, Morphological effect of MoS₂ nanoparticles on catalytic oxidation and vacuum lubrication, Applied Surface Science 256 (2010) 2517–2523.

[18] Hu Kun-hong, ZHAO Di-fang, LIU Jun-sheng. Synthesis and application of nano-MoS₂/bentonite composite for the removal of organic dye. Trans. Nonferrous Met. Soc. China, 2012, 22(10): 2484?2490.

[19] Bin Shi (研究生, 東華大學博士畢業(yè)), Jian Hua Guo, Xing An Cao, En Zhu Hu, Kun Hong 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.

[20] X. A. Cao (研究生, 東華大學博士畢業(yè)), 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.

[21] Li Z, (研究生, 合肥工業(yè)大學博士在讀) Han S, Wang L, Hu K*. Tribological properties of trimethylolpropane oleate synthesized through esterification reaction with nano-MoS₂ catalysts of different shapes, Industrial Lubrication and Tribology, 2023, 75: 246-254.

[22] Hu K., Miao Y.