Synthesis of graphene oxide with a lower band gap and study of charge transfer interactions with perylenediimide - New Journal of Chemistry (RSC Publishing)
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Band Gap Opening of Graphene by Forming Heterojunctions with the 2D Carbonitrides Nitrogenated Holey Graphene, g-C3N4, and g-CN: Electric Field Effect | The Journal of Physical Chemistry C
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Band Gap Opening of Graphene by Forming Heterojunctions with the 2D Carbonitrides Nitrogenated Holey Graphene, g-C3N4, and g-CN: Electric Field Effect | The Journal of Physical Chemistry C
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Band Gap Opening of Graphene by Forming Heterojunctions with the 2D Carbonitrides Nitrogenated Holey Graphene, g-C3N4, and g-CN: Electric Field Effect | The Journal of Physical Chemistry C
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A modular synthetic approach for band-gap engineering of armchair graphene nanoribbons | Nature Communications
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Breakthrough in Creating a Band Gap for Graphene Promises Huge Potential for Electronic Applications - IEEE Spectrum
Band Gap Opening of Graphene by Forming Heterojunctions with the 2D Carbonitrides Nitrogenated Holey Graphene, g-C3N4, and g-CN: Electric Field Effect | The Journal of Physical Chemistry C
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Electronic structure tuning and band gap opening of nitrogen and boron doped holey graphene flake: The role of single/dual doping - ScienceDirect
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Band Gap Opening of Graphene by Forming Heterojunctions with the 2D Carbonitrides Nitrogenated Holey Graphene, g-C3N4, and g-CN: Electric Field Effect | The Journal of Physical Chemistry C
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