2015
DOI: 10.1002/wcms.1237
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Recent advances in hybrid graphene‐BN planar structures

Abstract: Among the hotly investigated two‐dimensional (2D) materials, the hybrid graphene‐BN sheet is of special interest in the single‐atomic sheet family. Since graphene and BN sheet are the two most widely studied 2D materials, and they have the least lattice mismatch with each other while exhibiting very distinctive properties. Therefore, the hybridization between them provides unique flexibilities in tuning the properties which can change from nonmagnetic to ferromagnetic and from semiconducting to half‐metallic. … Show more

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Cited by 26 publications
(11 citation statements)
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References 73 publications
(173 reference statements)
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“…The planar heterostructure created by graphene domain doping into h‐BN or vice versa can induce many new properties by changing the electronic structure of the host material . The doping of graphene domain into h‐BN can decrease the optical bandgaps of h‐BN from 5.69 to 3.85 eV .…”
mentioning
confidence: 99%
“…The planar heterostructure created by graphene domain doping into h‐BN or vice versa can induce many new properties by changing the electronic structure of the host material . The doping of graphene domain into h‐BN can decrease the optical bandgaps of h‐BN from 5.69 to 3.85 eV .…”
mentioning
confidence: 99%
“…C 6-2n H 6 BN ðÞ n (n ¼ 1, 2, 3) turned out to reproduce correctly the stability of all possible isomers for a given n value (3,11,3 for n ¼ 1, 2, 3), which is of importance for applications in graphene chemistry where the CC ðÞ n ! BN ðÞ n substitution is a topic that has received great interest in recent years [68].…”
Section: Density Functional Theorymentioning
confidence: 99%
“…The results of Wang et al [18] demonstrate that the amount of hydrophilicity is important. Highly coated nanosheets do not enter the bilayer and prefer to adhere to the polar head groups,w hereas nanosheets with no coating prefer to reside in the centero ft he bilayer.I ti sp ossible that the barrier to entry experienced by the BNNSsm ay be reduced by functionalization( such as decoration with hydrogen or fluoride [34] )o r the design of ah ybrid graphene-BN nanosheet [35] to afford ab etter mix of hydrophobic/hydrophilic surfaces [36] . Furthermore, we predict that the mechanism of the translocation of hydrophilic BNNS throught he hydrophobic core of al ipid membrane will depend on the surface area of the BNNS.…”
Section: à2mentioning
confidence: 99%