Direct Growth of Graphene at Low Temperature for Future Device Applications
Bum Jun Kim, Tuqeer Nasir, Jae-Young Choi
J. Korean Ceram. Soc. 2018;55(3):203-223.   Published online 2018 May 25     DOI:
Citations to this article as recorded by Crossref logo
Porous Silicon Skeleton as Catalysts for Hydrocarbon Decomposition at Low Temperature Synthesis of Graphene Nanocomposites
K. Tynyshtykbayev, Ch. Spitas, K. Kostas, Z. Insepov
ECS Journal of Solid State Science and Technology.2021; 10(1): 013009.     CrossRef
Measurement Technique for High Thermal Conductivity Nanomaterials
Jungwon Kim
Ceramist.2021; 24(1): 109.     CrossRef
A review of graphene synthesisatlow temperatures by CVD methods
Jia-bin Wang, Zhuang Ren, Ying Hou, Xiao-li Yan, Pei-zhi Liu, Hua Zhang, Hai-xia Zhang, Jun-jie Guo
New Carbon Materials.2020; 35(3): 193.     CrossRef
Graphene Flakes for Electronic Applications: DC Plasma Jet-Assisted Synthesis
Irina V. Antonova, Marina B. Shavelkina, Artem I. Ivanov, Regina A. Soots, Peter P. Ivanov, Alexey N. Bocharov
Nanomaterials.2020; 10(10): 2050.     CrossRef
Energy of low-temperature synthesis of graphen-like carbon nanocomposites on porous silicon (Review)
K Tynyshtykbayev, Z Insepov
Journal of Physics: Conference Series.2020; 1696(1): 012025.     CrossRef