陶强，吉林大学，综合极端条件高压科学中心，超硬材料国家重点实验室，副教授。一直从事大腔体压机的高温高压研究，在高温高压大腔体压机组装设计、原位高温高压电学性质测量（大腔体压机）、以及新型超硬多功能材料的制备和改性方面开展了大量工作。在高压样品腔内设计出局部剪切环境；开发出高温高压原位直接法同时测量电阻率和赛贝克系数的大腔体压机组装，实现高温高压下热电性质的原位测量；在过渡金属轻元素化合物、纳米聚晶金刚石等材料中，制备出了一系列高/超硬度多功能材料，实现了可用于极端环境的高/超硬度-导电、高硬度-疏水、高硬度-催化等多功能材料的开发。在Chem. Mater.，ACS Appl. Mater. Interfaces，Carbon等杂志以第一作者和通讯作者发表SCI论文20余篇，共同作者文章60余篇；授权发明专利10余项；作为项目负责人主持项目4项，其中，国家自然基金青年基金一项（26万）；国家重大专项课题子课题三项（100万，100万，500万）。

(1) 2010.9–2015.7, 吉林大学, 凝聚态物理, 博士, 导师: 朱品文

(2) 2006.9–2010.7, 长春大学, 应用物理, 学士, 导师: 胡小颖

(1) 2018.9-至今, 吉林大学, 超硬材料国家重点实验室, 副教授

(2) 2015.8-2018.9, 吉林大学, 超硬材料国家重点实验室, 讲师

高温高压超硬多功能材料的研究

(1) 导电超硬纳米聚晶Tix(TM)1-xB2的微结构构筑及硬度机制研究，自然科学基金青年基金 26万，结题，项目负责人

(2) 国家重大科技基础设施项目子课题-高压原位多物理量协同测量子系统，100万，结题，项目负责人

(3) 国家重大科技基础设施项目子课题，吉林分部项目经费，500万，结题，项目负责人

(4) 国家重大科技基础设施项目子课题-综合极端条件实验装置产业化能力建设，100万，在研，项目负责人

(1) Quan Gan; Hetian Liu; Shuai Zhang; Fei Wang; Jiaen Cheng; Xin Wang; Shushan Dong; Qiang Tao*; Yanli Chen*, and Pinwen Zhu*, Robust Hydrophobic Materials by Surface Modification in Transition-Metal Diborides, ACS Appl. Mater. Interfaces, 2021, 13: 58162-58169. (IF 10.383)

(2) Qiang Tao; Yanli Chen; Min Lian; Chunhong Xu; Li Li; Xiaokang Feng; Xin Wang; Tian Cui; Weitao Zheng*; Pinwen Zhu*, Modulating Hardness in Molybdenum Monoborides by Adjusting an Array of Boron Zigzag Chains, Chem. Mater., 2019, 31(1): 200-206. (IF 10.508)

(3) Qiang Tao; Xin Wei; Min Lian; Hongliang Wang; Xin Wang*; Shushan Dong; Tian Cui; Pinwen Zhu*, Nanotwinned diamond synthesized from multicore carbon onion, Carbon, 2017, 120: 405-410. (IF 11.307)

(4) Qiang Tao; Dafang Zheng; Xueping Zhao; Yanli Chen; Quan Li; Qian Li; Changchun Wang; Tian Cui; Yanming Ma; Xin Wang*; Pinwen Zhu*, Exploring Hardness and the Distorted sp2 Hybridization of B-B Bonds in WB3, Chem. Mater., 2014, 26(18): 5297-5302. (IF 10.508)

(5) Qiang Tao, Xueping Zhao, Yanli Chen, Jia Li, Quan Li, Yanming Ma, Junjun Li, Tian Cui, Pinwen Zhu* and Xin Wang*, Enhanced Vickers hardness by quasi-3D boron network in MoB2, RSC Advances, 2013, 3: 18317. (IF 4.036)

(6) Ying Zuo, Zeben Liu, Wei Zhao, Yue Liu, Xinmiao Gai, Dandan Han, Xin Wang, Shushan Dong*, Qiang Tao*, Pinwen Zhu*, Enhanced hardness and conductivity motivated by Ni and Co doping in β-MoB2, Int. J. Refract. Met. H., 2023, 110, 105997. (IF 4.804)

(7) Feng Zhao, Qiang Tao*, Cun You, Meiyan Ye, Li Li, Yang Han, Shushan Dong, Xin Wang, Tian Cui, Pinwen Zhu*, Enhanced hardness in tungsten–substituted molybdenum diboride solid solutions by local symmetry reduction, Mater. Chem. Phys., 2020, 251, 123188 (IF 4.094)

(8) Xiaonan Wang, Dianzhen Wang, Shuailing Ma, Xinran Dong, Kaixuan Rong, Cun You, Fei Wang, Haibo Li, Dongfei Li, Qiang Tao*, Pinwen Zhu*, Enhanced toughness of boron carbide by single-wall carbon nanotube bundles, Mater. Today Commun., 2023, 35 105651 (IF 4.094)

(9) Wei Zhao, Jiaen Cheng, Dianzhen Wang, Cun You, Jinmeng Zhang, Meiyan Ye, Xin Wang, Shushan Dong*, Qiang Tao*, and Pinwen Zhu*, Accurate in situ measurements of thermoelectric transport properties at high pressure and high temperature, Rev. Sci. Instrum., 2022, 93, 103901. (IF 1.843)

(10) Xiaonan Wang, Qiang Tao*, Yang Han, Qiuyang Hu, Jiaen Cheng, Hongsheng Jia, Pinwen* Zhu, TiB2-reinforced B4C composites produced by reaction sintering at high-pressure and high temperature, High Pressure Res., 2020, 40, 245-256 (IF 1.431)

办公地点：吉林大学中心校区 综合极端条件楼410室

电子邮箱：qiangtao@jlu.edu.cn