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A modular synthetic approach for band-gap engineering of armchair graphene nanoribbons.


ABSTRACT: Despite the great promise of armchair graphene nanoribbons (aGNRs) as high-performance semiconductors, practical band-gap engineering of aGNRs remains an unmet challenge. Given that width and edge structures are the two key factors for modulating band-gaps of aGNRs, a reliable synthetic method that allows control of both factors would be highly desirable. Here we report a simple modular strategy for efficient preparation of N?=?6 aGNR, the narrowest member in the N?=?3p (p: natural number) aGNR family, and two unsymmetrically edge-functionalized GNRs that contain benzothiadiazole and benzotriazole moieties. The trend of band-gap transitions among these GNRs parallels those in donor-acceptor alternating conjugated polymers. In addition, post-functionalization of the unsymmetrical heterocyclic edge via C-H borylation permits further band-gap tuning. Therefore, this method opens the door for convenient band-gap engineering of aGNRs through modifying the heteroarenes on the edge.

SUBMITTER: Li G 

PROVIDER: S-EPMC5924368 | biostudies-literature | 2018 Apr

REPOSITORIES: biostudies-literature

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A modular synthetic approach for band-gap engineering of armchair graphene nanoribbons.

Li Gang G   Yoon Ki-Young KY   Zhong Xinjue X   Wang Jianchun J   Zhang Rui R   Guest Jeffrey R JR   Wen Jianguo J   Zhu X-Y XY   Dong Guangbin G  

Nature communications 20180427 1


Despite the great promise of armchair graphene nanoribbons (aGNRs) as high-performance semiconductors, practical band-gap engineering of aGNRs remains an unmet challenge. Given that width and edge structures are the two key factors for modulating band-gaps of aGNRs, a reliable synthetic method that allows control of both factors would be highly desirable. Here we report a simple modular strategy for efficient preparation of N = 6 aGNR, the narrowest member in the N = 3p (p: natural number) aGNR  ...[more]

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