Qiangqiang Zhang

Name:Qiangqiang Zhang
Date of Birth:Mar. 13, 1987
Institution:College of Civil Engineering and Mechanics, Lanzhou University
Address:222 South Tianshui Road, Lanzhou 730000, China
Sept. 2012-Apr. 2016 Ph.D. in Engineering Mechanics, School of Civil Engineering Harbin Institute of Technology, Harbin, China Supervisor: Prof. Guangyuan Wang and Prof. Hui Li
Sept. 2014-Dec. 2015 Joint Ph.D student program of CSC Purdue University, USA Supervisor: Prof. Tim Fisher
Sept. 2010-Jul. 2012 M.E. in Structure Engineering, School of Civil Engineering,Harbin Institute of Technology, Harbin, China Supervisor: Prof. Hui Li
Sept. 2006-Jul. 2010 B.E. in Civil Engineering, School of Civil Engineering,Harbin Institute of Technology, Harbin, China Supervisor: Prof. Hui Li
Jul. 2016-present Professor (Jul. 2018), Associate Professor(Jul. 2016) , College of Civil Engineering and Mechanics,
Lanzhou University, Lanzhou, China
Research Areas
Smart Material and Structure Metamaterials 3D Graphene-based Functional Materials and Devices 3D Printing Fabrication
Visiting Positions
Members and Activities
Aug. 2017-Present Consultant Member of General Group, Strategy Research on 3D Printing Materials and Application of China Academy of Engineering.
Jan. 2018-Present Editorial Board of Composite Materials Research, Insight - Material Science.
Jan. 2018-Present The Communication Evaluation Experts of the National Natural Science Foundation and the Ministry of Science and Technology.
Aug. 2018- Science Fund for Distinguished Young Scholars of Gansu Province

Jul. 2018- 20th Excellent Doctoral Dissertation of Harbin Institute of Technology

Sept. 2012-Apr. 2016 China national graduate student scholarship.

Chunhua Innovation awards of Harbin Institute of Technology.

Excellent Ph.D graduation student of Heilongjiang Province.

Sept. 2010-Jun. 2012 1st Place of structure control and SHM competition in 2011 APSS (Asia Pacific Summer School).

First prize of postgraduate student scholarship of Harbin Institute of Technology.

Excellent student of Harbin Institute of Technology.

100 Excellent Dissertation of Master Degree in Heilongjiang Province.

Sept. 2006-Jun. 2010 “Best student dissertation”of graduate student in Harbin Institute of Technology.
Main Courses
Research Grants
Jul. 2016-present: Lanzhou University
2017-2018 Study on mechanical properties of 3D printed graphene materials (No. lzujbky-2017-k17), The Fundamental Research Funds for the Central Universities, PI.
2018-2020  Study on the preparation method and mechanical properties of 3D graphene negative Poisson’s ratio metamaterials (No. 51702142), NSFC, PI.
2018-2020  Research on the key technology and negative thermal expansion of 3D printing of 3D graphene supermaterials, Science Fund for Distinguished Young Scholars of Gansu Province, PI.
2017-2018  Study on the durability of cement-based materials modified with graphene oxide, Open Funds of Key Laboratory of Mechanics on Disaster and Environment in Western China, PI.
2018-    'One Belt And One Road' consulting technical data compilation of graphene new material industry development (No. 2018ldbrhq001), Belt and Road Special Project of Lanzhou University, PI.
2018-2020  Application Research of 3D Printing Graphene Functional Materials in the Field of Friction Generator Energy Devices, Initiative Postdocs Supporting Program (No. BX20180132), PI.
2018-2019  Study and application of mechanical properties of materials under multifield conditions (No. lzujbky-2018-126), The Fundamental Research Funds for the Central Universities, PI.
Apr. 2016-Sep. 2012: Harbin Institute of Technology
2013-2016  Study on vibration control of magnetorheological fluid damper coupling with structure (No. 51208157), NSF, Co-III.
2012-2015  Mechanism and control of large wind-induced vibration of suspension cables in the affected area of complex winding flow field of large span suspension bridge tower (No. 51378153), NSF, Co-III.
2014-2017  Chlorine ion diffusion characteristics and prediction methods of nanoconcrete (No. 51378159), NSF, Co-III.
2015-2017  Preparation and research of flexible stretchable supercapacitor with adjustable shape (No. 51402115), NSF, Co-III.
2015-2017  Preparation method of graphene aerogel at room temperature and ambient pressure and its intelligent properties and tensile properties study (No. 51602078), NSF, Co-II.
2016-2019  Study on modified CFR-nanomaterials with high strength and high toughness concrete (No. 51678206), NSF, Co-II.
Refereed Publications
1) Journal papers
1.   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, Q1/Top)
2.   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, 2018127, 449-458. (IF= 7.082, Q1/Top, Citation 5)
3.   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, Q2/Top, Citation 3)
4.   He P, Huang B, 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 (17), 12352–12364. (IF= 2.993, Q2/Top)
5.   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, Q3, Citation 2)
6.   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, Q3)
7.   Wang Y, Zhang J, Zhang B, Zhao K, Wang Z, Shen Y, Zhang Q*Recent Advances of 3D Printing Graphene Based Functional MaterialsMaterials China2018.accepted
8.   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=21.950Q1/TopResearch Highlight on Nature Review Materials, Citation 7)
9.   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, Q1/Top, Citation 10)
10. 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, Q1/Top, Citation 7)
11. 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, Q2/Top, Citation 2)
12. 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, Q2/Top, Citation 6)
13. 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#First Co-authors, Q1/Top, Citation 37)
14. 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=21.950VIP Publication, Q1/Top, Citation 47)
15. Zhang Q, Zhang F, Medarametla S, Li Hui, Zhou C, Lin D. Three-Dimensional Printing Graphene Aerogel. Small, 2016, 12 (13): 1702-1708.  (IF=9.598Q1/Top2016s Most accessed paper2018 Guinness World RecordsThe lightest 3D printing graphene aerogel, Citation 85, Web of Science High Citation Paper)
16. 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, Q1/Top, Citation 35)
17. 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=1.925Q32016 Top 10 most download papers, Citation 5)
18. 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=13.942Q1/TopCitation 105, Web of Science High Citation Paper)
19. 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, Q1/Top, Citation 64)
20. 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=2.434Q3, Citation 13)
21. 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=2.373Q3)
22. 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=1.925Q3, Citation 27)
23. 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=1.925Q3, Citation 13)
2) Conference papers
24. 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.
25. Zhang Q. Flyweight, Superelastic, Electrically Conductive, and Flame-Retardant 3D Multi-Nanolayer Graphene/Ceramic Metamaterial, 2017 International Forum on Graphene, 2017, Shenzhen.
26. 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。
27. 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。
28. 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.
29. 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.
30. 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.
31. 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.
32. 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.
1) Books
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, 247-277Woodhead Publishing: Cambridge, England.
2. 张强强 等译,氧化石墨烯基础原理与应用Dimiev A MEigler S著,Graphene oxide Fundamentals and applicationsWiley2017),机械工业出版社,2018.