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师资力量


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胡宝山,1981年出生于黑龙江省,博士/博士后,副教授,副院长。重庆市引进高层次人才。重庆市新材料研发创新英才。重庆市石墨烯制造业创新中心(重庆市经信委)、重庆市石墨烯产业技术创新联盟(重庆市经信委)专家委员会成员。2003年,哈尔滨工业大学,高分子材料与工程专业学士,导师刘丽;2006年,北京化工研究院材料学专业硕士,导师金滟20093月,日本北九州市立大学,环境工学博士,导师 Kaoru Fujimoto; 20094月至20113月,日本九州大学博士后, 导师 Hiroki Ago。化学(学硕)、化学工程与技术(学硕)、材料与化工(专硕)硕士生导师。化工过程强化与反应国家地方联合工程实验室研究骨干。国家级精品课程资源共享平台《大学化学》课程主讲教师。参编《大学化学》、《大学化学实验》国家精品资源共享课程系列教材。荣获宝钢教育基金会优秀教师奖、唐立新奖教金、重庆市教学成果奖二等奖(排名四)、重庆大学自然科学一等奖(排名二)等。研究领域为碳纳米材料物理化学、电子器件、能源环境催化等交叉方向。


联系方式

hubaoshan@cqu.edu.cn

研究方向

1 碳纳米材料控制制备和生长机理:研究碳纳米材料(石墨烯和碳纳米管)的宏、微观结构的精密控制生长机制及其构性规律。


2 碳纳米材料功能化及其应用:研究碳纳米复合材料及其在光电器件、能源转化(如电化学、光催化等)和环境污染物去除方面的新效能。


代表性论文、科研项目、专著和专利


代表性论文

[1] Meng Nie, Qian Yang, Yan Jin, Congcong Ning, Shuaifeng Lou, Chaozhong Guo, Jiajun Wang, Xiangnan Gong, Baoshan Hu*.  Ion-sharing interface and directional doping synergize N-MoS2/Se-CoS2 catalyst for efficient hydrogen evolution. J. Catal., 2023, 424, 9-21.


[2] Congcong Ning, Qian Yang*, Amin Mao, Zijia Tang, Yan Jin,  Baoshan Hu*.  Research progress in controllable preparation of graphene nanoribbons. Acta Chim. Sinica, 2023, 81, 406-419.


[3] Xuyao Xiong, Congcong Ning, Yan Jin, Dongling Li, Xiangnan Gong, Chao Cheng, Qingjiang Pan, Yi Xu, Baoshan Hu*. Confined synthesis and interlayer coupling of patterned graphene ribbons arrays. Carbon, 191, 571-580, 2022.


[4] Xiaogang Li, Xuyao Xiong, Congcong Ning, Qian Yang, Dongling Li, Zegao Wang, Yan Jin, Wenbin Zhao, Baoshan Hu*. Directional copper dewetting to grow graphene ribbon arrays. Chem. Comm., 57, 13550-13553, 2021.


[5] Xusheng Ren, Lichun Dong*, Di Xu, Baoshan Hu*. Challenges towards hydrogen economy in China. Int. J. Hydrogen Energy, 45, 34326-34345, 2020.


[6]Qing Li, Baoshan Hu*, Qian Yang, Xia Cai, Meng Nie, Yan Jin, Li Zhou, Yi Xu, Qingjiang Pan, Liang Fang. Interaction mechanism between multi-layered MoS2 and H2O2 for self-generation of reactive oxygen species. Environ. Res., 191, 110227, 2020.


[7] Jiao Ye, Baoshan Hu*, Yan Jin, Zegao Wang, Yi Xi, Liang Fang, Qingjiang Pan. Interface Engineering Integrates Fractal-tree Structured Nitrogen-doped Graphene/Carbon Nanotubes for Supercapacitors. Electrochim. Acta, 349,136372,2020.


[8] Wenbin Zhao, Baoshan Hu*, Bingyan Xiong, Jiao Ye, Qian Yang, Pengyu Fan, Meng Nie, Yan Jin, Liang Fang, Wei Quan Tian*.Temperature differentiated synthesis of hierarchically structured N,S doped carbon nanotubes/graphene hybrids as efficient electrocatalyst for hydrogen evolution reaction. J. Alloy. Compd., 848, 156528, 2020.


[9] 金燕, 杨倩, 赵文斌, 胡宝山*. 石墨烯化学气相沉积法可控制备的催化反应体系研究. 化工学报, 6(71), 2564-2585, 2020.


[10] Wenbin Zhao, Baoshan Hu*, Qian Yang, Zegao Wang, Xuesong Li, Yan Jin, Yi Xi, Jing Li, Wei-Quan Tian*. Synergetic interaction between copper and carbon impurity induces low temperature growth of highly-defective graphene for enhanced electrochemical performance. Carbon, 150, 371-377, 2019.


[11] Yimei Yang, Baoshan Hu*, Wenbin Zhao, Qian Yang, Feng Yang, Juncong Ren, Xiaogang Li, Yan Jin, Liang Fang, Qingjiang Pan. Bridging N-doped graphene and carbon rich C3N4 layers for photopromoted multi-functional electrocatalysts. Electrochim. Acta, 317, 25-33, 2019.


[12] Qian Yang, Zegao Wang, Lichun Dong, Wenbin Zhao, Yan Jin, Liang Fang, Baoshan Hu*, Mingdong Dong*. Activating MoS2 with super-high nitrogen-doping concentration as efficient catalyst for hydrogen evolution reaction. J. Phys. Chem. C, 123, 10917-10925, 2019.


[13] 张宁, 金燕, 周玲玲, 胡宝山*. 基于三元金属催化剂制备碳纳米管/三维石墨烯复合材料及电容性能. 复合材料学报, 36(3), 739-747, 2019.


[14] Xue Yang, Baoshan Hu*, Yan Jin, Wenbin Zhao, Zhengtang Luo, Zhisong Lu, Liang Fang, Haibo Ruan. Insight into CO2 etching behavior for efficiently nanosizing graphene. Adv. Mater. Interface, 4, 1601065, 2017.


[15] Baoshan Hu*, Xiaoying He, Rui Wu, Yan Jin, Yawei Bian, Siguo Chen*, Zidong Wei*. Controlling highly dominated N configuration in N-doped graphene as oxygen reduction catalyst. J. Electrochem. Soc., 164, F256-F258, 2017.


[16] Qian Yang, Baoshan Hu*, Yan Jin, Zhengtang Luo, Flemming Besenbacher, Liang Fang, Lichun Dong*, Mingdong Dong*. Regulating surficial catalysis mechanism of copper metal by manipulating reactive intermediate for growth of homogenous bernal-stacked bilayer graphene. Adv. Mater. Interface, 4, 1700415, 2017.


[17] Dianmin Zhang, Baoshan Hu*, Dongjie Guan, Zhengtang Luo. Essential roles of defects in pure graphene/Cu2O photocatalyst. Catal.Commun., 76, 7-12, 2016.


[18] Baoshan Hu*, Yan Jin, Dongjie Guan, Zhengtang Luo, Bo Shang*, Qianrui Fang, Haibo Ruan. H2-dependent carbon dissolution and diffusion-out in graphene chemical vapor deposition growth. J. Phys. Chem. C, 119, 24124-24131, 2015.


[19] Yan Jin, Baoshan Hu*, Zidong Wei, Zhengtang Luo, Dapeng Wei, Yi Xi*, Ye Zhang, Yunling Liu. Roles of H2 in annealing and growth times of graphene CVD synthesis over copper foil. J. Mater. Chem. A, 2, 16208-16216, 2014.


[20] Baoshan Hu*, Zidong Wei*, Hiroki Ago, Yan Jin, Meirong Xia, Zhengtang Luo, Qingjiang Pan, Yunling Liu. Effects of substrate and transfer on the CVD-grown graphene over sapphire-induced Cu films. SCIENCE CHINA-Chem., 57, 895-901, 2014.


[21] Junjun Tian, Baoshan Hu*, Zidong Wei, Yan Jin, Meirong Xia, Qingjiang Pan, Yunling Liu. Surface structure deduced differences of copper foil and film for graphene CVD growth. Appl. Surf. Sci., 300, 73-79, 2014.


[22] Shuge Dai, Yi Xi*, Chenguo Hu, Baoshan Hu*, Xule Yue, Lu Cheng, Guo Wang. C@KCu7S4 microstructure for solid-state supercapacitors. RSC Adv., 4, 40542-40545, 2014.


[23] Baoshan Hu, H. Ago*, Y. Ito, M. Tsuji. Epitaxial growth of large-area single-layer graphene over Cu(111)/sapphire by atmospheric pressure CVD. Carbon, 50, 57-65, 2012.


[24] Baoshan Hu*, H. Ago, C. M. Orofeo, Y. Ogawa, M. Tsuji. On the nucleation of graphene in chemical vapor deposition. New .J. Chem., 36, 73-76, 2012.


[25] Baoshan Hu, H. Ago*, N. Yoshihara, M. Tsuji. Effects of water vapor on diameter distribution of SWNTs grown over Fe/MgO-based catalysts. J. Phys. Chem. C, 114, 3850-3856, 2010.


[26] Baoshan Hu, K. Fujimoto*. Promoting behaviors of alkali compounds in low temperature methanol synthesis over copper-based catalyst. Appl. Catal. B: Environ., 95, 208-216, 2010.


[27] Baoshan Hu, Y. Yamaguchi, K. Fujimoto*. Low temperature methanol synthesis in alcohol solvent over copper-based catalyst. Catal. Commun., 10, 1620-1624, 2009.


[28] Baoshan Hu, K. Fujimoto*. Low temperature methanol synthesis in slurry phase with a hybrid copper-formate system. Catal. Lett., 129, 416-421, 2009.


[29] Baoshan Hu, K. Fujimoto*. High-performance Cu/MgO-Na catalyst for methanol synthesis via ethyl formate. Appl. Catal. A: Gen., 346, 174-178, 2008.


授权专利


[1] 胡宝山, 田军军, 魏子栋, 一种用CO2直接合成石墨烯的方法, 2016.02.03, 中国, ZL 201410186284.8


[2] 胡宝山, 杨倩, 金燕, 方千瑞, 董立春, 一种常压二段过程催化固体碳源合成石墨烯的方法, 2018.04.24, 中国, ZL 201510025386.6


[3] 胡宝山, 赵文斌, 一种常压低温化学气相沉积制备石墨烯薄膜的方法, 2018.07.10, 中国, ZL 201710018061.4


[4] 胡宝山, 蔡霞, 金燕, 一种低温化学气相沉积制备石墨烯薄膜的方法, 2020.11.27, 中国, ZL 202011355645.9


[5] 胡宝山, 付长啸, 金燕, 一种盐微晶表面催化直接合成石墨烯纳米带的方法, 2022.01.19, 中国, ZL 202210061502.X


科研项目


[1]国家自然科学基金青年项目:批准号51502026. 基于限域纳米尺度液态金属的石墨烯纳米带阵列的调控生长及场效应性能研究. 主持. 2016.1−2018.12.


[2] 教育部博士点新教师基金项目:批准号20130191120043. 石墨烯阵列的调控生长及其机理研究. 主持. 2014.1−2016.12.


[3] 教育部留学回国人员科研启动基金项目:教外司留[2013]693. 基于二步结晶外延法大气压合成石墨烯及其在场效应晶体管中的应用. 主持. 2013.7−2015.7.


[4] 重庆市教委科学技术研究计划重大项目:KJZD-M202000102. 利用低熔点金属直接合成石墨烯纳米带阵列及其场效应晶体管应用. 主持. 2020.10-2023.9.


[5] 重庆市科委自然科学基金面上项目:cstc2019jcyj-msxmX0155. 碳纳米管柱撑层间距可调缺陷态石墨烯生长及柔性透明电容器应用.主持.2019.7-2022.6.


[6] 重庆市科技计划项目基础科学与前沿技术研究专项一般项目:批准号cstc2016jcyjA0230. 基于CO2-CVD过程设计的单晶石墨烯生长及其晶畴结构调控研究. 主持. 2016.7−2019.6.


[7] 重庆市科委自然科学基金面上项目:编号cstc2012jjA50014. 基于二步外延法大面积优质石墨烯的化学气相合成及其机理研究. 主持. 2012.9−2015.8.


[8] 中央高校基本科研业务费重点项目:编号CDJZR 12225501.石墨烯及其复合材料的功能调控及其机制研究.主持.2012.12−2015.11.


[9] 国家自然科学基金面上项目:编号51272296. 原子精度可控石墨烯纳米结构合成机理及应用研究. 主研. 2013.1−2016.12.

 

 

团队仪器设备

材料合成制备用管式常压气相反应器、水热反应釜等;材料性能测试用可见分光光度计、电化学工作站等;大型测试设备依托于国家地方联合工程实验室、重庆大学分析测试中心、重庆大学电镜中心等。