Super-elastic graphene/carbon nanotube aerogel: A novel thermal interface material with highly thermal transport properties

Carbon

Volumn 99, Issue , 2016, Pages 222-228

  Lv, Peng ^a   Tan, Xiao Wen ^a   Yu, Ke Han ^a   Zheng, Rui Lin ^a   Zheng, Jia Jin ^a   Wei, Wei ^a  

^a NANJING UNIVERSITY OF POSTS AND TELECOMMUNICATIONS   (China)

Author keywords

[No Author keywords available]

Indexed keywords

AEROGELS; CARBON; CARBON NANOTUBES; ELECTRONIC EQUIPMENT; GRAPHENE; INTERFACES (MATERIALS); NANOTUBES; THERMAL INSULATING MATERIALS; TRANSPORT PROPERTIES; YARN;

HIGH COMPRESSIONS; HIGH THERMAL CONDUCTIVITY; MECHANICAL COMPRESSION; NETWORK STRUCTURES; THERMAL INTERFACE MATERIALS; THERMAL INTERFACE RESISTANCES; THERMAL TRANSPORT PROPERTIES; THREEDIMENSIONAL (3-D);

THERMAL CONDUCTIVITY;

EID: 84959432066     PISSN: 00086223     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.carbon.2015.12.026     Document Type: Article

References (39)

1. K.M.F. Shahil, and A.A. Balandin Graphene-multilayer graphene nanocomposites as highly efficient thermal interface materials Nano Lett. 12 2 2012 861 867
2. B.A. Cola, X.F. Xu, and T.S. Fisher Increased real contact in thermal interfaces: A carbon nanotube/foil material Appl. Phys. Lett. 90 9 2007 093513-1-3
3. R.J. Warzoha, D. Zhang, G. Feng, and A.S. Fleischer Engineering interfaces in carbon nanostructured mats for the creation of energy efficient thermal interface materials Carbon 61 2013 441 457
4. L.M. Veca, M.J. Meziani, W. Wang, X. Wang, F. Lu, P. Zhang, and et al. Carbon nanosheets for polymeric nanocomposites with high thermal conductivity Adv. Mater 21 20 2009 2088 2092
5. L.F.C. Pereira, I. Savic, and D. Donadio Thermal conductivity of one-, two-and three-dimensional spy carbon New J. Phys. 15 2013 105019
6. M. Wang, H.Y. Chen, W. Lin, Z. Li, Q. Li, M.H. Chen, and et al. Crack-free and highly thermal conductive composite film ACS Appl. Mater Interfaces 6 1 2014 539 544
7. Z.L. Gao, K. Zhang, and M.M.F. Yuen Fabrication of carbon nanotube thermal interface material on aluminum alloy substrates with low pressure CVD Nanotechnology 22 26 2011 265611
8. Q.Z. Liang, X.X. Yao, W. Wang, Y. Liu, and C.P. Wong A three-dimensional vertically aligned functionalized multilayer graphene architecture: An approach for graphene-based thermal interfacial materials ACS Nano 5 3 2011 2392 2401
9. M.A. Panzer, G.Y. Zhang, D. Mann, X. Hu, E. Pop, H.J. Dai, and et al. Thermal properties of metal-coated vertically aligned single-wall nanotube arrays J. Heat. Trans-T ASME 130 5 2008 052401
10. Y.J. Zhong, M. Zhou, F.Q. Huang, T.Q. Lin, and D.Y. Wan Effect of graphene aerogel on thermal behavior of phase change materials for thermal management Sol. Energ Mat. Sol. C 113 2013 195 200
11. M. Zhou, T.Q. Lin, F.Q. Huang, Y.J. Zhong, Z. Wang, Y.F. Tang, and et al. Highly conductive porous graphene/ceramic composites for heat transfer and thermal energy strorage Adv. Funct. Mater 23 18 2013 2263 2269
12. M.T. Pettes, H.X. Ji, R.S. Ruoff, and L. Shi Thermal transport in three-dimensional foam architectures of few-layer graphene and ultrathin graphite Nano Lett. 12 6 2012 2959 2964
13. H.N. Huang, H. Bi, M. Zhou, F. Xu, T.Q. Lin, F.X. Liu, and et al. A three-dimensional elastic macroscopic graphene network for thermal management application J. Mater Chem. A 2 43 2014 18215
14. X.F. Zhang, K.K. Yeung, Z.L. Gao, J.K. Li, H.Y. Sun, H.S. Xu, and et al. Exceptional thermal interface properties of a three-dimensional graphene foam Carbon 66 2014 201 209
15. A.A. Balandin, S. Ghosh, W. Bao, I. Calizo, D. Teweldebrhan, F. Miao, and et al. Superior thermal conductivity of single-layer graphene Nano Lett. 8 3 2008 902 907
16. H. Bi, I.W. Chen, T.Q. Lin, and F.Q. Huang A new tubular graphene form of a tetrahedrally connected cellular structure Adv. Mater 27 39 2015 5943 5949
17. L. Qiu, J.Z. Liu, S.L.Y. Chang, Y.Z. Wu, and D. Li Biomimetic superelastic graphene-based cellular monoliths Nat. Commun. 3 2012 1241
18. J. Kuang, L.Q. Liu, Y. Gao, D. Zhou, Z. Chen, B.H. Han, and et al. A hierarchically structured graphene foam and its potential as a large-scale strain-gauge sensor Nanoscale 5 24 2013 12171 12177
19. C. Zhu, T.Y. Han, E.B. Duoss, A.M. Golobic, J.D. Kuntz, C.M. Spadaccini, and et al. Highly compressible 3D periodic graphene aerogel microlattices Nat. Commun. 6 2015 6962
20. Y.G. Li, J. Chen, L. Huang, C. Li, J.D. Hong, and G.Q. Shi Highly compressible macroporous graphene monoliths via a improve hydrothermal process Adv. Mater 26 28 2014 4789 4793
21. L.W. Peng, Y.Y. Feng, P. Lv, D. Lei, Y.T. Shen, Y. Li, and et al. Transparent, conductive, and flexible multiwalled carbon nanotube/graphene aerogel electrodes with two three-dimensional microstructures J. Phys. Chem. C 116 8 2012 4670 4678
22. Y.X. Xu, Z.Y. Lin, X.Q. Huang, Y. Liu, Y. Huang, and X.F. Duan Flexible solid state supercapacitors based on three-dimensional graphene hydrogel films ACS Nano 7 5 2013 4042 4049
23. Z.H. Tang, S.L. Shen, J. Zhuang, and X. Wang Noble-metal-promoted three-dimensional macroassemble of single-layered graphene oxide Angew. Chem. Int. Ed. 49 27 2010 4603 4607
24. J. Wang, Z. Shi, J. Fan, Y. Ge, J. Yin, and G. Hu Self-assembly of graphene into three-dimensional structures promoted by natural phenolic acids J. Mater Chem. 22 42 2012 22459 22466
25. Y.P. Wu, N.B. Yi, L. Huang, T.F. Zhang, S.L. Fang, H.C. Chang, and et al. Three-dimensionally bonded spongy graphene material with super compressive elasticity and near-zero Poisson's ratio Nat. Commun. 6 2015 6141
26. H. Hu, Z.B. Zhao, W.B. Wan, Y. Gogotsi, and J.S. Qiu Ultralight and highly compressible graphene aerogels Adv. Mater 25 15 2013 2219 2223
27. T.A. Schaedler, A.J. Jacobsen, A. Torrents, A.E. Sorensen, J. Lian, J.R. Greer, and et al. Ultralight metallic microlattices Science 334 6058 2011 962 965
28. J.H. Zou, J.H. Liu, A.S. Karakoti, A. Kumar, D. Joung, Q. Li, and et al. Ultralight multiwalled carbon nanotube aerogel ACS Nano 4 12 2010 7293 7302
29. C. Wu, X.Y. Huang, X.F. Wu, R. Qian, and P.K. Jiang Mechanically flexible and multifunctional polymer-based graphene foams for elastic conductors and oil-water separators Adv. Mater 25 39 2013 5658 5662
30. H.Y. Sun, Z. Xu, and C. Gao Multifunctional, ultra-flyweight, synergistically assembled carbon aerogels Adv. Mater 25 18 2013 2554 2560
31. W. Feng, M.M. Qing, P. Lv, J.P. Li, and Y.Y. Feng A three-dimensional nanostructure of graphite intercalated by carbon nanotubes with high cross-plane thermal conductivity and bending strength Carbon 77 2014 1054 1064
32. X.J. Hu, A.A. Padilla, J. Xu, T.S. Fisher, and L.E. Goodson 3-Omega measurements of vertically oriented carbon nanotubes on silicon J. Heat. Transf. 128 2006 1109 1113
33. Z.H. Feng, T.Q. Li, Z.J. Hu, G.W. Zhao, J.S. Wang, and B.Y. Huang Low cost preparation of high thermal conductivity carbon blocks with ultra-high anisotropy from a commercial graphite paper Carbon 50 10 2012 3947 3948
34. W. Feng, J.P. Li, Y.Y. Feng, and M.M. Qin Enhanced cross-plane thermal conductivity and high resilience of three-dimensional hierarchical carbon nanocoil-graphite nanocomposites RSC Adv. 4 20 2014 10090 10096
35. H.Y. Chen, M.H. Chen, J.T. Di, G. Xu, H. Li, and Q. Li Architecting three-dimensional networks in carbon nanotube buckypapers for thermal interface materials J. Phys. Chem. C 116 6 2012 3903 3909
36. M.B. Jakubinek, M.A. White, G. Li, C. Jayasinghe, W. Cho, M.J. Schulz, and et al. Thermal and electrical conductivity of tall, vertically aligned carbon nanotube arrays Carbon 48 13 2010 3947 3952
37. T. Tong, Y. Zhao, L. Delzeit, A. Kashani, M. Meyyappan, and A. Majumdar Dense vertically aligned multiwalled carbon nanotube arrays as thermal interface materials IEEE Trans. Components Packag Technol. 30 1 2007 92 100
38. P. Zhang, Q. Li, and Y.M. Xuan Thermal contact resistance of epoxy composites incorporated with nano-copper particles and the multi-walled carbon nanotubes Compos. Part A 57 2014 1 7
39. Q. Ngo, B.A. Cruden, A.M. Cassell, G. Sims, M. Meyyappan, J. Li, and et al. Thermal interface properties of Cu-filled vertically aligned carbon nanofiber arrays Nano Lett. 4 12 2004 2403 2407