Physical and electrical properties of graphene grown under different hydrogen flow in low pressure chemical vapor deposition

被引:0
|
作者
Sajjad Hussain
Muhmmad Waqas Iqbal
Jaehyun Park
Muneer Ahmad
Jai Singh
Jonghwa Eom
Jongwan Jung
机构
[1] Sejong University,Nanotechnology and Advanced Materials Engineering and Graphene Research Institute
[2] Sejong University,Department of Physics and Graphene Research Institute
来源
Nanoscale Research Letters | / 9卷
关键词
Graphene synthesis; H; flow; CVD; Raman; Mobility;
D O I
暂无
中图分类号
学科分类号
摘要
Hydrogen flow during low pressure chemical vapor deposition had significant effect not only on the physical properties but also on the electrical properties of graphene. Nucleation and grain growth of graphene increased at higher hydrogen flows. And, more oxygen-related functional groups like amorphous and oxidized carbon that probably contributed to defects or contamination of graphene remained on the graphene surface at low H2 flow conditions. It is believed that at low hydrogen flow, those remained oxygen or other oxidizing impurities make the graphene films p-doped and result in decreasing the carrier mobility.
引用
收藏
相关论文
共 50 条
  • [31] Low-temperature-grown continuous graphene films from benzene by chemical vapor deposition at ambient pressure
    Jisu Jang
    Myungwoo Son
    Sunki Chung
    Kihyeun Kim
    Chunhum Cho
    Byoung Hun Lee
    Moon-Ho Ham
    Scientific Reports, 5
  • [32] Low-temperature-grown continuous graphene films from benzene by chemical vapor deposition at ambient pressure
    Jang, Jisu
    Son, Myungwoo
    Chung, Sunki
    Kim, Kihyeun
    Cho, Chunhum
    Lee, Byoung Hun
    Ham, Moon-Ho
    SCIENTIFIC REPORTS, 2015, 5
  • [33] Electronic properties of grains and grain boundaries in graphene grown by chemical vapor deposition
    Jauregui, Luis A.
    Cao, Helin
    Wu, Wei
    Yu, Qingkai
    Chen, Yong P.
    SOLID STATE COMMUNICATIONS, 2011, 151 (16) : 1100 - 1104
  • [34] ELECTRICAL-PROPERTIES AND ION-IMPLANTATION OF EPITAXIAL GAN, GROWN BY LOW-PRESSURE METALORGANIC CHEMICAL VAPOR-DEPOSITION
    KHAN, MA
    SKOGMAN, RA
    SCHULZE, RG
    GERSHENZON, M
    APPLIED PHYSICS LETTERS, 1983, 42 (05) : 430 - 432
  • [35] Electrical properties of N atomic layer doped Si epitaxial films grown by ultraclean low-pressure chemical vapor deposition
    Jeong, YC
    Sakuraba, M
    Murota, J
    MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING, 2005, 8 (1-3) : 121 - 124
  • [36] DIRECT PHYSICAL EXFOLIATION AND TRANSFER OF GRAPHENE GROWN VIA ETHANOL CHEMICAL VAPOR DEPOSITION
    Yoo, Kwanghyun
    Takei, Yusuke
    Hou, Bo
    Chiashi, Shohei
    Maruyama, Shigeo
    Matsumoto, Kiyoshi
    Shimoyama, Isao
    2011 IEEE 24TH INTERNATIONAL CONFERENCE ON MICRO ELECTRO MECHANICAL SYSTEMS (MEMS), 2011, : 99 - 102
  • [37] Strain relaxation in graphene grown by chemical vapor deposition
    Troppenz, Gerald V.
    Gluba, Marc A.
    Kraft, Marco
    Rappich, Joerg
    Nickel, Norbert H.
    JOURNAL OF APPLIED PHYSICS, 2013, 114 (21)
  • [38] Comprehensive study of graphene grown by chemical vapor deposition
    Fan, Jincheng
    Li, Tengfei
    Gao, Yuanhong
    Wang, Jianguo
    Ding, Hanlin
    Heng, Hang
    JOURNAL OF MATERIALS SCIENCE-MATERIALS IN ELECTRONICS, 2014, 25 (10) : 4333 - 4338
  • [39] Effect of temperature on graphene grown by chemical vapor deposition
    Chaitoglou, Stefanos
    Bertran, Enric
    JOURNAL OF MATERIALS SCIENCE, 2017, 52 (13) : 8348 - 8356
  • [40] Ballistic transport in graphene grown by chemical vapor deposition
    Calado, V. E.
    Zhu, Shou-En
    Goswami, S.
    Xu, Q.
    Watanabe, K.
    Taniguchi, T.
    Janssen, G. C. A. M.
    Vandersypen, L. M. K.
    APPLIED PHYSICS LETTERS, 2014, 104 (02)
12345