Environmental Engineering Reference
In-Depth Information
24. Kim,P.,Shi,L.,Majumdar,A.,andMcEuen,P.L.(2001)Thermaltransport
measurements of individual multiwalled nanotubes,
Phys. Rev. Lett.
,
87
(21),215502.
25. Pop, E., Mann, D., Wang, Q., Goodson, K., and Dai, H. (2005) Thermal
conductance of an individual single-wall carbon nanotube above room
temperature,
Nano Lett.
,
6
(1),96.
26. Li, Q., Liu, C., Wang, X., and Fan, S. (2009) Measuring the thermal
conductivityofindividualcarbonnanotubesbytheRamanshiftmethod,
Nanot
,
20
(14),145702.
27. Hsu, I.-K., Kumar, R., Bushmaker, A., Cronin, S. B., Pettes, M. T., Shi, L.,
Brintlinger,T.,Fuhrer,M.S.,andCumings,J.(2008)Opticalmeasurement
of thermal transport in suspended carbon nanotubes,
Appl. Phys. Lett.
,
92
(6),063119.
28. Balandin, A. A. (2011) Thermal properties of graphene and nanostruc-
tured carbon materials,
Nat. Mater.
,
10
(8),569.
29. Balandin, A. A., Ghosh, S., Bao, W., Calizo, I., Teweldebrhan, D., Miao,
F., and Lau, C. N. (2008) Superior thermal conductivity of single-layer
graphene,
Nano Lett.
,
8
(3),902.
30. Ghosh, S., Calizo, I., Teweldebrhan, D., Pokatilov, E. P., Nika, D. L.,
Balandin, A. A., Bao, W., Miao, F., and Lau, C. N. (2008) Extremely high
thermal conductivity of graphene: Prospects for thermal management
applicationsinnanoelectroniccircuits,
Appl. Phys. Lett.
,
92
(15),151911.
31. Cai,W.,Moore,A.L.,Zhu,Y.,Li,X.,Chen,S.,Shi,L.,andRuoff,R.S.(2010)
Thermal transport in suspended and supported monolayer graphene
grown by chemical vapor deposition,
Nano Lett.
,
10
(5),1645.
32. Faugeras, C., Faugeras, B., Orlita, M., Potemski, M., Nair, R. R., and Geim,
A. K. (2010) Thermal conductivity of graphene in corbino membrane
geometry,
ACS Nano
,
4
(4),1889.
33. Jauregui, L. A.
, et al.
(2010) Thermal transport in graphene nanostruc-
tures: Experimentsand simulations,
ECS Transactions
,
28
(5),73.
34. Seol,J.H.
, et al.
(2010)Two-dimensionalphonontransportinsupported
graphene,
Science
,
328
(5975),213.
35. Mohanty, N., Moore, D., Xu, Z., Sreeprasad, T. S., Nagaraja, A., Rodriguez,
A. A., and Berry, V. (2012) Nanotomy-based production of transferable
and dispersible graphene nanostructures of controlled shape and size,
Nat. Commun.
,
3
(1),844.
36. Kosynkin, D. V., Higginbotham, A. L., Sinitskii, A., Lomeda, J. R., Dimiev,
A., Price, B. K., and Tour, J. M. (2009) Longitudinal unzipping of carbon
nanotubesto form graphene nanoribbons,
Nature
,
458
(7240),872.