Creation, innovation and Entrepreneurship
一、个人基本信息
姓名:黄俊
职称:副教授、硕士生导师
电子邮箱:huangjunkimi@whu.edu.cn
联系方式:18707195692
办公地址:皇冠新体育appA9515
人才称号:武汉英才
二、教育及工作经历
2021~今:武汉大学,皇冠新体育app,机械系系,副教授
2019~2021:清华大学,航天航空学院,博士后
2014~2019:武汉大学,皇冠新体育app,工学博士
2010~2014:武汉大学,皇冠新体育app,工学学士
三、研究领域
机器人温触觉电子皮肤、人体健康监测与智能传感、显微操作机器人与力-热-电多物理场原位测量、柔性电子热管理
四、荣誉和奖励
[1] 武汉英才(2023)
欢迎具有机械、机器人、微电子、能源、生物医学等背景的同学加入。
五、代表性论文
长期从事机器人电子皮肤、人体健康监测与智能传感、力-热-电多物理场原位测量等方向的研究工作,以第一/通讯作者身份在ACS Nano、Nano Energy、ACS applied Materials and Interfaces、Nanoscale、International Journal of Heat and Mass Transfer等期刊发表SCI论文十余篇。
近期代表作:
[1] Jun Huang, Aoran Fan, Xiaoxiao Xia, Song Li*, Xing Zhang*, In Situ Thermal Conductivity Measurement of Single-Crystal Zeolitic Imidazolate Framework-8 by Raman-Resistance Temperature Detectors Method, ACS Nano, 2020, 14, 10, 14100–14107.(中科院分区:1区,IF=14.588)
[2] Jun Huang; Yufeng Zhang; Aoran Fan; Yupu Li; Haidong Wang; Weigang Ma; Xing Zhang; Remarkable thermal conductivity reduction of silicon nanowires during the bending process, ACS Appl. Mater. Interfaces, 2023, 15(33):39689-39696. (中科院分区:1区,IF=8.758)
[3] Shangshang Wang#, Jun Huang#, Xing Zhang*, Jianbo Zhang*, Direct measurement of proton conductivity of a single ionomer nanofiber, Nano Energy, 2022, 102:107738-107738. (中科院分区:1区,IF=16.8)
[4] Na Zhao; Zehua Yu; Jun Huang*; Yuxi Liu; Yifan Zhao; Xiangqian Fu*; Peihua Yang; Kang Liu*; Non-invasive monitoring of biochemicals in hydrogel-assisted microfluidic chips, Nanoscale, 2023, 2023(15):6179-6186. (中科院分区:1区,IF=5.8)
[5] Na Zhao, Yanni Ma, Zehua Yu, Jun Huang*, Xiangqian Fu, Tao Qiu*, Kang Liu*, Hydrogel-Assisted Electrokinetics for High-Resolution and Non-invasive Flow Monitoring in Microfluidic Chips, Chinese Journal of Chemistry, 2023, 42, 571-577. (中科院分区:2区,IF=5.5)
[6] Jun Huang, Xia Xiaoxiao, Xuejiao Hu*, Song Li*, Kang Liu*, A general method for measuring the thermal conductivity of MOF crystals, International Journal of Heat and Mass Transfer, 2019, 138, 11-16.(中科院分区:2区,IF=4.947)
[7] Junxian Pei#, Jun Huang#, Zhi Huang, Kang Liu*, Liquid flow-induced electricity in carbon nanomaterials, Sustainable Energy and Fuels, 2019, 3, 3, 599-610. (中科院分区:2区,IF=5.503)
[8] Junxian Pei, Bo Chen, Xiaowei Liu, Jun Huang*, Xuejiao Hua, Kang Liu*, Improving the efficiency of electrokinetic conversion in nanofluidics with graphene-engineered surface, Sustainable Energy & Fuels,2021. (中科院分区:2区,IF=5.503)
[9] Rongjie He, Yutian Liao, Jun Huang*, Ting Cheng, Xiantao Zhang, Peihua Yang, Huidong Liu, Kang Liu*, Radiant Air Conditioning with Infrared Transparent Polyethylene Aerogel, Materials Today Energy, 2021. (中科院分区:1区,IF=7.311)
[10] Wei Wei, Jun Huang, Wei Li, Haiyan Peng*, Song Li*,Impacts of ethanol and water adsorptions on thermal conductivity of ZIF-8,The Journal of Physical Chemistry C, 2019,123, 45, 27369-27374. (中科院分区:2区,IF=4.189)
[11] Ruihuan Cheng; Wei Li; Wei Wei; Jun Huang; Song Li*, Molecular Insights into the Correlation between Microstructure and Thermal Conductivity of Zeolitic Imidazolate Frameworks, ACS Applied Materials & Interfaces, 2021, 13, 12, 14141-14149. (中科院分区:1区,IF=8.758)
[12] Song, Z., Luo, W., Huang, J., Yu, J., Li, M., & Zhu, Y. , Spontaneously Generated Stress Waves inside Nanoparticles during Rapid Heating in Molecular Dynamics Simulation[J]. The Journal of Physical Chemistry C, 2023, 127(41): 20477-20483. (中科院分区:2区,IF=4.177)
[13] L. Liu, J.J. Hong, Y.M. Zhang, R.X. Li, Y.T. Liao, J. Huang*, Thermal Concentration on Thermoelectric Thin Film for Efficient Solar Energy Harvesting, Coatings 2022, 12, 630. (中科院分区:2区,IF=2.9)
六、科研项目
[1] 单个MOF颗粒热导率原为测量及影响机制研究,国家自然科学基金委员会,青年基金项目,主持,52006123,2021.01-2023.12
[2] 全固态锂电池界面反应与载能子输运、转化耦合机理研究,国家自然科学基金委员会,重点项目,参与,52130602,2022.01-2025.12
[3] 面向柔性电子高效热管理的弯曲硅纳米线传热机理研究,中央高校基本科研项目,主持,2022-2024
[4] 酒泉压缩空气储储能系统地下储气洞室热力学数值模拟研究,水利部长江水利委员会,主持,2023~2024
[5] 充电模块热设计与优化研究,公牛集团,主持,2023~2024
七、著作、教材及专利等成果
八、指导学生情况
[1] 大学生创新创业省级项目(2022、2023)
九、教学工作
本科生课程:
[1] 《工程热力学》(主讲)
[2] 《测试技术》(参讲)
研究生课程:
[1] 《测试技术》(参讲)