阐述了单层石墨烯、石墨烯带及石墨烯复合材料的导热性能.介绍了各种测试模型,综述了石墨烯的层数、纵横比、几何结构、边缘粗糙度、衬底耦合作用、温度等因素对其导热性能的影响.提出了石墨烯及其复合材料导热性能可深人研究的方面.
参考文献
| [1] | Shamsa M;Ghosh S;Calizo I;Ralchenko V;Popovich A;Balandin AA .Thermal conductivity of nitrogenated ultrananocrystalline diamond films on silicon[J].Journal of Applied Physics,2008(8):83538-1-83538-8-0. |
| [2] | Novoselov K S;Geim A K;Morozov S V et al.Electric field effect in atomically thin carbon films[J].Science,2004,306:666-669. |
| [3] | Geim AK;Novoselov KS .The rise of graphene[J].Nature materials,2007(3):183-191. |
| [4] | Berger, C;Song, ZM;Li, XB;Wu, XS;Brown, N;Naud, C;Mayo, D;Li, TB;Hass, J;Marchenkov, AN .Electronic confinement and coherence in patterned epitaxial graphene[J].Science,2006(5777):1191-1196. |
| [5] | Meyer J C et al.The structure of suspended graphene sheets[J].Nature,2007,446(7131):60-63. |
| [6] | Subrina Samia;Kotchetkov Dmitri;Balandin Alexander A.Graphene heat spreaders for thermal management of Nanoelectronic circuits[M].University of California-Riverside,2009:1-4. |
| [7] | S. Ghosh;I. Calizo;D. Teweldebrhan;E. P. Pokatilov;D. L. Nika;A. A. Balandin;W. Bao;F. Miao;C. N. Lau .Extremely high thermal conductivity of graphene: Prospects for thermal management applications in nanoelectronic circuits[J].Applied physics letters,2008(15):151911-1-151911-3-0. |
| [8] | Timo Schwamb;Brian R Burg;Niklas C Schirmer;Dimos Poulikakos .An electrical method for the measurement of the thermal and electrical conductivity of reduced graphene oxide nanostructures[J].Nanotechnology,2009(40):405704:1-405704:5. |
| [9] | Jiang Jinwu;Wang Jiansheng;Li Baowen .Thermal conductance of graphene and dimerite[J].Physical Review,2009,79(205418):1-6. |
| [10] | Gupta A;Chen G;Joshi P;Tadigadapa S;Eklund PC .Raman scattering from high-frequency phonons in supported n-graphene layer films[J].Nano letters,2006(12):2667-2673. |
| [11] | 许欣,周孑民,王莹,陈晓玲,杨劲.一种高导热材料导热系数测试仪的研制[J].热科学与技术,2008(03):247-251. |
| [12] | Fei Deng,Quanshui Zheng.INTERACTION MODELS FOR EFFECTIVE THERMAL AND ELECTRIC CONDUCTIVITIES OF CARBON NANOTUBE COMPOSITES[J].固体力学学报(英文版),2009(01):1-17. |
| [13] | Braginsky L.;Lukzen N.;Shklover V.;Hofmann H. .High-temperature phonon thermal conductivity of nanostructures - art. no. 134203[J].Physical Review.B.Condensed Matter,2002(13):4203-0. |
| [14] | Manu Shamsa;Weili Liu;Alexander A. Balandin;Jianlin Liu .Phonon-hopping thermal conduction in quantum dot superlattices[J].Applied physics letters,2005(20):202105-1-202105-3-0. |
| [15] | Nika D L;Pokatilov E P;Askerov A S et al.Phonon thermal conduction in graphene:Role of Umklapp and edge roughness scattering[J].Physical Review,2009,79(155413):1-12. |
| [16] | Ni ZH;Wang HM;Kasim J;Fan HM;Yu T;Wu YH;Feng YP;Shen ZX .Graphene thickness determination using reflection and contrast spectroscopy[J].Nano letters,2007(9):2758-2763. |
| [17] | Subrina Samia;Kotchetkov Dmitri .Simulation of heat conduction in suspended graphene flakes of variable Shapes[J].Journal of Nanoelectronics and Optoelectronics,2008,3:1-21. |
| [18] | Calizo I;Bao W;Miao F et al.The effect of substrates on the Raman spectrum of graphene[J].Applied Physics Letters,2001,91(201904) |
| [19] | Nika D L;Ghosh S;Pokatilov E P et al.Lattice thermal conductivity of graphene flakes:comparison with bulk graphite[J].Applied Physics Letters,2009,94(203103):1-3. |
| [20] | Calizo I;Balandin AA;Bao W;Miao F;Lau CN .Temperature dependence of the Raman spectra of graphene and graphene multilayers[J].Nano letters,2007(9):2645-2649. |
| [21] | Blake P;Hill E W.Making graphene visible[J].Applied Physics Letters,2007(08) |
| [22] | Ni Zhenhua;Wang Yingying;Yu Ting et al.Raman Spectroscopy and imaging of graphene[J].Nano Research,2008,1:273-291. |
| [23] | Ying ying Wang;Zhen hua Ni;Ting Yu .Raman Studies of Monolayer Graphene:The Substrate Effect[J].The journal of physical chemistry, C. Nanomaterials and interfaces,2008(29):10637-10640. |
| [24] | 胡海鑫,张振华,刘新海,邱明,丁开和.石墨烯纳米带电子结构的紧束缚法研究[J].物理学报,2009(10):7156-7161. |
| [25] | Guo Zhixin;Zhang Dier;Gong Xingao .Thermal conductivity of graphene nanoribbons[J].Applied Physics Letters,2009,95(163103):1-3. |
| [26] | Yang Nuo;Zhang Gang;Li Baowen .Ultralow thermal conductivity of isotope-doped silicon nanowires[J].Nano Letters,2008,8(01):276-280. |
| [27] | Carrete J;Longo R C;Varela L M et al.Moleculardynamics prediction of the thermal conductivity of thin InP nanowires Similarities to Si[J].Physical Review,2009,80(155408):1-5. |
| [28] | S. H. Xie;Y. Y. Liu;J. Y. Li .Comparison of the effective conductivity between composites reinforced by graphene nanosheets and carbon nanotubes[J].Applied physics letters,2008(24):243121-1-243121-3-0. |
| [29] | Wang, Shiren;Tambraparni, Madhava;Qiu, Jingjing;Tipton, John;Dean, Derrick .Thermal Expansion of Graphene Composites[J].Macromolecules,2009(14):5251-5255. |
| [30] | Yu AP;Ramesh P;Itkis ME;Bekyarova E;Haddon RC .Graphite nanoplatelet-epoxy composite thermal interface materials[J].The journal of physical chemistry, C. Nanomaterials and interfaces,2007(21):7565-7569. |
| [31] | Stankovich S;Dikin DA;Dommett GHB;Kohlhaas KM;Zimney EJ;Stach EA;Piner RD;Nguyen ST;Ruoff RS .Graphene-based composite materials[J].Nature,2006(7100):282-286. |
| [32] | Li D;Muller MB;Gilje S;Kaner RB;Wallace GG .Processable aqueous dispersions of graphene nanosheets[J].Nature nanotechnology,2008(2):101-105. |
| [33] | Abdala A;Adamson D H;Aksay I A et al.Graphene as a nanosheet filler in polymer composites[J].Graphene Filled Nanocomposites,2010,1:1-9. |
| [34] | Hung M T;Choi O;Ju Y S et al.Heat conduction in graphite nanoplatelet-reinforced polymer nanocomposites[J].Applied Physics Letters,2006,89(023117):1-3. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%