澳门真人线上娱乐

教授(正高职)

张强强

职  称:青年教授
职  务:土木工程专业系主任
专  业:结构工程
所在系所:土木工程系、结构工程研究所
通讯地址:甘肃省兰州市天水南路222号澳门真人线上娱乐,730000
电子信箱: zhangqq@lzu.edu.cn
联系电话:+86-13659417036
传  真:
主要学历
2006.08—2010.07: 哈尔滨工业大学 实验学院 土木工程专业 获工学学士学位
2010.08—2012.07: 哈尔滨工业大学 土木工程学院 结构工程专业 获工学硕士学位
2012.08—2016.04: 哈尔滨工业大学 土木工程学院 工程力学专业 获工学博士学位
2014.09-2015.12: 美国普渡大学(Purdue University)土木学院/机械工程学院 材料科学专业 联合培养博士研究生
主要学术经历
2016.07- 澳门真人线上娱乐 副教授,研究生导师
2018.07- 兰州大学 兰州大学/材料科学与工程博士后流动站,博士后
2018.07- 兰州大学 澳门真人线上,青年教授 研究生导师
主要研究方向
1. 智能纳米材料与结构
2. 多功能碳纳米材料界面纳米力学模拟
3. 负泊松比负刚度石墨烯超材料
4. 三维石墨烯基多孔材料与储能研究
5. 3D打印多功能纳米材料和智能传感器件设计
主要讲授课程
1.土木工程材料(本科生课程)
2.大型软件(研究生课程)
招生专业
0814 土木工程 081402 结构工程
欢迎土木工程、材料科学、力学等专业学生报考
主要学术成就、奖励及荣誉
在三维石墨烯气凝胶、三维石墨烯基功能复合材料、石墨烯磁弹性体柔性材料、以及3D打印石墨烯功能材料等密切相关的领域已开展了的研究,发表SCI论文24篇,参编专著一部,完成译著一部。其中中科院JCR分区一区高影响因子论文12篇,如Science(1篇,IF=41.058)、Advanced Materials(3篇,IF=21.95)、ACS Nano(2篇,IF= 13.709)、Advanced Functional Materials(1篇,IF= 13.325)、Small(1篇,IF=9.598)、ACS Applied Materials & Interfaces(1篇,IF=8.097)、Carbon(3篇,IF=7.082)等,累计影响因子超过200,引用740次以上,H因子13。其中1篇以Reports Paper在Science上发表,并被剑桥大学Manish Chhowalla教授和宾夕法尼亚大学大学Deep Jariwala教授在Science发表题为“Hyperbolic 3D architectures with 2D ceramics”的Perspective评述报道;1篇以VIP Paper在Advanced Materials上发表;1篇文章并被材料领域顶级刊物以题为“Metamaterials Graphene makes ceramics multifunctional”撰文Nature Materials Reviews(IF=51.941)亮点报道;2篇文章成为ESI前1%高被引文章;一篇发表在Small成为2016、2017年期刊Top10浏览量文章,研究成果受邀参加法国法国蓬皮杜会展中心“3D打印世界”主题展,并获得“2018世界吉尼斯最强3D打印石墨烯材料纪录”。先后受邀参加6AESE、11ANCRiSST、第十六届全国青年材料科学技术研讨会、2017新材料国际发展趋势高层论坛——优秀青年科学家分论坛等学术会议并做邀请报告。目前兼任中国工程院3D打印材料及应用发展战略研究—通用组/无机组顾问专家成员,国家自然科学基金,Advanced Materials、ACS Nano、Carbon、Optics Communications、Journal of Sensors等10余种SCI期刊审稿人,并主持国家自然科学基金、甘肃省杰出青年科学基金、2018年度博士后创新人才支持计划、中央高校重点项目和自由探索优秀青年教师科研创新项目、“一带一路”专项后期资助项目、教育部重点实验室开放课题等基金7项。
主要科研项目及角色

1. 国家自然科学基金青年基金(No. 51702142):三维石墨烯负泊松比超材料3D打印制备方法与力学性能可调控性研究,2018.01—2020.12,25万,项目主持人
2. 甘肃省杰出青年科学基金(No. 18JR3RA263):三维石墨烯超材料3D打印关键技术与负热膨胀性能研究,2018.08-2020.07,20万,项目主持人
3. 2017年“中央高校基本科研业务费专项资金”重点项目(No.lzujbky-2017-k17): 3D打印石墨烯材料力学性能研究,2017.01—2018.12,25万,项目主持人
4. 2018年“一带一路”专项后期资助项目(No.2018ldbrhq001):“一带一路”石墨烯新材料产业发展咨询性技术资料编译,2018.01-2018.12,10万,项目主持人
5. 2018年度兰州大学“中央高校基本科研业务费专项资金”自由探索-优秀青年教师科研创新项目(No. lzujbky-2018-124):多场条件下材料力学特性研究与应用,2018.01-2019.12,8.4万,项目主持人
6. 2018年度博士后创新人才支持计划(No. BX20180132):3D打印石墨烯功能材料在摩擦发电能源器件领域的应用研究,2018.07-2020.06,60万,项目主持人
7. 西部灾害与环境力学国家重点实验室开放课题面上项目:氧化石墨烯改性水泥基材料耐久性研究,2018.01-2018.12,6.0万,

代表性论著

1) 期刊论文

2019年:
1. Xu X#, Zhang Q#, Hao M#, et al. Double-Negative-Index Ceramic Aerogels for Thermal Superinsulation, Science, 2019, 363(6428), 723–727. (IF=41.058,一区Top,#共同第一作者, 引用1次)

2018年:
2. Zhang Q*, Zhang F, Xiang X, Zhou C, Lin D. 3D Printing Polymer Hollow Template-Mediated Graphene Lattice with Tailorable Architectures and Multifunctional Properties, ACS Nano, 2018, 12 (2), 1096–1106. (IF= 13.709, 一区Top,引用4次)
3. Zhang Q*, Wang Y, Zhang B, Zhao K, He P, Huang B, 3D Superelastic Graphene Aerogel-Nanosheet Hybrid Hierarchical Nanostructure as High-Performance Supercapacitor Electrode. Carbon, 2018,127, 449-458. (IF= 7.082, 一区Top, 引用18次)
4. He P, Zhao K, Huang B, Zhang B, He P, Huang Q, Chen T, Zhang Q* Mechanically robust and size-controlled MoS2/graphene hybrid aerogel as high-performance anode for lithium ion battery, Journal of Materials Science, 2018. 53 (6), 4482-4493. (IF= 2.993, 二区Top, 引用9次)
5. He P, Huang B, Huang Q, Chen T, Zhang Q* Structural evolution of vertically-oriented graphene nanosheet templating Ni-Co hydroxide as pseudocapacitive electrode, Journal of Materials Science, 53 (17), 12352–12364. (IF= 2.993, 二区Top)
6. Xie W, Song F, Wang R, Sun S, Li M, Fan Z, Liu B, Zhang Q*, Wang J*, Mechanically robust 3D graphene/hydroxyapatite hybrid bioscaffolds with enhanced osteoconductive and biocompatible performance, Crystals, 2018, 8(2), 105:1-12. (IF= 2.144, 三区, 引用5次)
7. He P, Zhang Q, Huang Q, Huang B, Chen T, Vertically-oriented graphene nanosheet as nano-bridge for pseudocapacitive electrode with ultrahigh electrochemical stability, RCS Advances, 2018, 8, 13891–13897. (IF= 2.936, 三区,引用1次)
8. 王玉,张靖翔,张宝强,赵可人,王卓越,沈沅樽,张强强*,3D 打印石墨烯基功能材料的研究进展,中国材料进展,,2018, 38 (8), 1-13.

2017年:
9. Zhang Q*, Lin D, Deng B, Xu X, Nian Q, Jin S, Leedy K, Li H, Cheng, G. J. Flyweight, Superelastic, Electrically Conductive, and Flame-Retardant 3D Multi-Nanolayer Graphene/Ceramic Metamaterial. Advanced Materials, 2017, 29 (28), 1605506. (IF=21.950,一区Top,Research Highlight on Nature Review Materials, 引用16次)
10. Zhang Q*, Hao M, Xu X, Xiong G, Li H, Fisher T S. Flyweight 3D Graphene Scaffolds with Microinterface Barrier-Derived Tunable Thermal Insulation and Flame Retardancy. ACS Applied Materials & Interfaces, 2017, 9(16), 14232-14241. (IF=8.097, 一区Top, 引用14次)
11. Zhang Q*, Yu Y, Yang K, Zhang B, Zhao K, Xiong G, Zhang X*. Mechanically robust and electrically conductive graphene-paper/glass-fibers/epoxy composites for stimuli-responsive sensors and Joule heating deicers. Carbon, 2017, 124, 296-307. (IF= 7.082, 一区Top, 引用9次)
12. Zhang Q*, Zhang B, Yu Y, Zhao K, He P, Huang B. Fluoroalkyl-Silane-Modified 3D Graphene Foam with Improved Joule-heating Effects and High Hydrophobicity-Derived Anti-icing Properties, Journal of Materials Science, 2018, 53(1), 528-537. (IF= 2.993, 二区Top, 引用4次)
13. Li H, Du T, Xiao H, Zhang Q. Crystallization of calcium silicate hydrates on the surface of nanomaterials, Journal of the American Ceramic Society, 2017, 100 (7), 3227-3238. (IF=2.956, 二区Top, 引用10次)

2016年:
14. Xu X#, Zhang Q#, Yu Y, Chen W, Hu H, Li H. Naturally Dried Graphene Aerogels with Superelasticity and Tunable Poisson's Ratio. Advanced Materials, 2016, 28 (41), 9223-9230. (IF=21.950,一区Top,#共同第一作者, 引用64次)
15. Zhang Q, Xu X, Lin D, Chen W, Xiong G, Yu Y, Fisher T S, Li H. Hyperbolically Patterned 3D Graphene Metamaterial with Negative Poisson's Ratio and Superelasticity. Advanced Materials, 2016, 28 (11): 2229-2237. (IF=21.950,一区Top,VIP Publication,引用64次)
16. Zhang Q, Zhang F, Medarametla S, Li Hui, Zhou C, Lin D. Three-Dimensional Printing Graphene Aerogel. Small, 2016, 12 (13): 1702-1708. (IF=9.598,一区 Top,2016’s Most accessed paper,2018 Guinness World Records‘The lightest 3D printing graphene aerogel’, 引用116次, ESI前1%高引文章)
17. Xiong G, He P, Wang D, Zhang Q, Chen T, Fisher T S. Hierarchical Ni-Co Hydroxide Petals on Mechanically Robust Graphene Petal Foam for High-Energy Asymmetric Supercapacitors. Advanced Functional Materials, 2016, 26(30), 5460-5470. (IF= 13.325, 一区Top,引用57)
18. Zhang Q*, Yu Y, Chen W, Chen T, Zhou Y, Li Hui, Li, H. Outdoor Experiment of flexible sandwiched Graphite-PET Sheets based self-snow-thawing pavement. Cold Regions Science and Technology, 2016, 103, 123-132. (IF=1.925,三区,2016 Top 10 most download papers,引用9)

2015年:
19. Xu X, Li H, Zhang Q, Hu H, Zhao Z, Li J, Gogotsi Y. Self-Sensing, Ultralight, and Conductive 3D Graphene/Iron Oxide Aerogel Elastomer Deformable in a Magnetic Field. ACS Nano, 2015, 9(4): 3969-3977. (IF=13.942,一区Top,引用139,SI前1%高引文章)
20. Zhang Q, Xu X, Li H, Xiong G, Hu H, Fisher T S. Mechanically robust honeycomb graphene aerogel multifunctional polymer composites. Carbon, 2015, 93: 659-670. (IF= 7.082, 一区Top,引用84次)
21. Chen W, Zhang Q, Li H, Hu H. An experimental investigation on vortex induced vibration of a flexible inclined cable under a shear flow. Journal of Fluids and Structures, 2015, 54: 297-311. (IF=2.434,三区,引用22次)
22. Xu X, Zhang Q, Yu Y, Yang K, He Q, Chen W, Li H, Qiao Y. Fluidic Behaviors in A Two-Dimensional Folded-Graphene Aerogel Monolith, Journal of Physics D: Applied Physics, 2015, 48(42): 425301-6. (IF=2.373,三区)

2014年:
23. Li H, Zhang Q, Xiao H. Self-deicing road system with a CNFP high-efficiency thermal source and MWCNT/cement-based high-thermal conductive composites. Cold Regions Science and Technology, 2013, 86: 22-35. (IF=1.925,三区,引用34次)
24. Li H, Zhang Q, Xiao H. Analytic investigations of CNFP-based self-deicing road system on the deicing performance. Cold Regions Science and Technology, 2014, 103: 123-132. (IF=1.925,三区,引用14次)

2) 会议论文
25. Zhang Q, Zhang B. A massive and rapid synthesis of single layer graphene oxide with large scale, 2017 'Silk Road' International Advanced Forum on Green Chemistry, 2017, Lanzhou.
26. Zhang Q. Flyweight, Superelastic, Electrically Conductive, and Flame-Retardant 3D Multi-Nanolayer Graphene/Ceramic Metamaterial, 2017 International Forum on Graphene, 2017, Shenzhen.
27. 张强强,三维石墨烯多功能材料可控制备与功能化研究,第十六届全国青年材料科学技术研讨会,2017,天津。
28. 张强强,李惠,3D打印在石墨烯功能材料中的研究现状与展望,中国工程院3D打印材料及应用发展战略研究—无机材料组启动会,2017,南京。
29. Zhang F, Zhang Q, Grove W, Lin D, Zhou C. 3D-printing Graphene Oxidize Based On Directional Freezing, 2016 Annual International Solid Freeform Fabrication Symposium (SFF Symp 2016), Austin, Texas, USA.
30. Zhang Q, Li H, Xu X, Yu Y. Electro-mechanical sensing performance of three-dimensional graphene nanostructure composites under ultra-large deformations. 6th International Conference on Advances in Experimental Structural Engineering, 2015, Champaign, 285.
31. Zhang Q, Li H, Experimental investigation of road snow-melting based on CNFP self-heating concrete. Proceedings of the SPIE, Volume 7978, pp. 797825-15, 2011.
32. Zhang Q, Li H, Deicing investigation of a CNFP-based high-efficiency self-deicing system. Proceedings of the SPIE, Volume 8347, pp. 83472D-10, 2012.
33. Zhang Q, Li H, Experimental investigation on the ice/snow -melting performance of CNFP&MWCNT/cement -based deicing system, The 6th International Workshop on Advanced Smart Materials and Smart Structures Technology, 2011, Dalian.

3) 著作
1. Li H, Zhang Q, Xiao H. Chapter 11. The Self-Heating Carbon Cano-Fiber Polymer Composites and Applications in De-icing/Snow-Thawing of Pavement. Innovative Developments of Advanced Multifunctional Nanocomposites in Civil and Structural Engineering (Eds. K.J. Loh and S. Nagarajaiah). 2016, 247-277,Woodhead Publishing: Cambridge, England.
2. 张强强 等译,氧化石墨烯基础原理与应用(Dimiev A M,Eigler S著,Graphene oxide Fundamentals and applications,Wiley,2017),机械工业出版社,2018.