[5] E GALASHEV A. Computer simulation of the thermal stability of nickel films on two-layer graphene. High Temperature, 52, 633-639(2014).
[6] J ZENG, X JI X, H MA Y et al. 3D graphene fibers grown by thermal chemical vapor deposition. Advanced Materials, 30, 1705380(2018).
[7] G LIM, D KIHM K, G KIM H et al. Enhanced thermoelectric conversion efficiency of cvd graphene with reduced grain sizes. Nanomaterials, 8, 557(2018).
[11] N ZHANG, K ZHAO X, B FU X et al. Preparation and characterization of polyamide-6/reduced graphene oxide composite microspheres. ChemistrySelect, 4, 11294-11301(2019).
[12] N MAHAMAI, T PROM-ANAN, T SARAKONSRI. Preparation and characterization of platinum alloy catalysts supported on
[13] J TIAN, L GUO, L YIN X et al. The liquid-phase preparation of graphene by shear exfoliation with graphite oxide as a dispersant. Materials Chemistry and Physics, 223, 1-8(2019).
[14] D ZHANG D, L FU, L LIAO et al. Preparation, characterization, and application of electrochemically functional graphene nanocomposites by one-step liquid-phase exfoliation of natural flake graphite with methylene blue. Nano Research, 5, 875-887(2012).
[15] T MA, H ARIGA, S TAKAKUSAGI et al. Smooth epitaxial copper film on sapphire surface suitable for high quality graphene growth. Thin Solid Films, 646, 12-16(2018).
[16] C MATTEVI, H KIM, M CHHOWALLA. A review of chemical vapour deposition of graphene on copper. Journal of Materials Chemistry, 21, 3324-3334(2011).
[17] P FANG L, W YUAN, B WANG et al. Growth of graphene on Cu foils by microwave plasma chemical vapor deposition: the effect of
[18] D MENDOZA C, G CALDAS P, L FREIRE F et al. Growth of single-layer graphene on Ge (100) by chemical vapor deposition. Applied Surface Science, 447, 816-821(2018).
[19] H WANG, Z WANG G, F BAO P et al. Controllable synthesis of submillimeter single-crystal monolayer graphene domains on copper foils by suppressing nucleation. Journal of the American Chemical Society, 134, 18476-18476(2012).
[20] X ZHAO, L GOU. Comparative analysis of graphene grown on copper and nickel sheet by microwave plasma chemical vapor deposition. Vacuum, 153, 48-52(2018).
[22] Z XU. Heat transport in low-dimensional materials: a review and perspective. Theoretical and Applied Mechanics Letters, 6, 113-121(2016).
[23] M YARIFARD, J DAVOODI, H RAFII-TABAR. Computation of the thermal resistance in graphene sheets with a rectangular hole. Computational Materials Science, 126, 29-34(2017).
[28] D HU X, M ZHANG, Y XUE Z et al. The effect of copper pretreatment on graphene synthesis by ion implantation into Ni/Cu substrate. Semiconductor Science and Technology, 33, 074001(2018).
[29] H JEONG, T HWANG W, Y SONG et al. Highly uniform monolayer graphene synthesis