Journal
2D MATERIALS
Volume 2, Issue 4, Pages -Publisher
IOP PUBLISHING LTD
DOI: 10.1088/2053-1583/2/4/042001
Keywords
graphene; doping; bandgap; electrical properties; chemical method
Categories
Funding
- Basic Science Research Program [2012M3A7B4049807]
- Global Frontier R&D Program of the Centre for Advanced Soft Electronics [20110031629]
- Global Research Lab (GRL) Program through the National Research Foundation of Korea - Ministry of Science, ICT and Future, Korea [2011-0021972]
- Inter-University Semiconductor Research Center (ISRC) at Seoul National University
- National Research Foundation of Korea [2012M3A7B4049807] Funding Source: Korea Institute of Science & Technology Information (KISTI), National Science & Technology Information Service (NTIS)
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To ensure the high performance of graphene-based devices, it is necessary to engineer the electrical properties of graphene with enhanced conductivity, controlled work function, opened or closed bandgaps, etc. This can be performed by various non-covalent chemical approaches, including molecular adsorption, substrate-induced doping, polymerization on graphene, deposition of metallic thin films or nanoparticles, etc. In addition, covalent approaches such as the substitution of carbon atoms with boron or nitrogen and the functionalization with hydrogen or fluorine are useful to tune the bandgaps more efficiently, with better uniformity and stability. In this review, representative examples of chemically engineered graphene and its device applications will be reviewed, and remaining challenges will be discussed.
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