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Graphene analogues of BN: novel synthesis and properties

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dc.contributor.author Nag, Angshuman
dc.contributor.author Raidongia, Kalyan
dc.contributor.author Hembram, Kailash P S S
dc.contributor.author Datta, Ranjan
dc.contributor.author Waghmare, Umesh V
dc.contributor.author Rao, C N R
dc.date.accessioned 2011-03-04T07:09:49Z
dc.date.available 2011-03-04T07:09:49Z
dc.date.issued 2010-03
dc.identifier 1936-0851 en_US
dc.identifier.citation ACS Nano 4(3), 1539-1544 (2010) en_US
dc.identifier.uri https://libjncir.jncasr.ac.in/xmlui/10572/61
dc.description Restricted access. en_US
dc.description.abstract Enthused by the fascinating properties of graphene, we have prepared graphene analogues of BN by a chemical method with a control on the number of layers. The method involves the reaction of boric acid with urea, wherein the relative proportions of the two have been varied over a wide range. Synthesis with a high proportion of urea yields a product with a majority of 1-4 layers. The surface area of BN increases progressively with the decreasing number of layers, and the high surface area BN exhibits high CO, adsorption, but negligible H, adsorption. Few-layer BN has been solubilized by interaction with Lewis bases. We have used first-principles simulations to determine structure, phonon dispersion, and elastic properties of BN with planar honeycomb lattice-based n-layer forms. We find that the mechanical stability of BN with respect to out-of-plane deformation is quite different from that of graphene, as evident in the dispersion of their flexural modes. BN is softer than graphene and exhibits signatures of long-range ionic interactions in its optical phonons. Finally, structures with different stacking sequences of BN have comparable energies, suggesting relative abundance of slip faults, stacking faults, and structural inhomogeneities in multilayer BN. en_US
dc.description.sponsorship CSIR India, IISc, DAE en_US
dc.description.uri http://dx.doi.org/10.1021/nn9018762 en_US
dc.language.iso en en_US
dc.publisher The American Chemical Society en_US
dc.rights © 2010 The American Chemical Society en_US
dc.subject BN en_US
dc.subject Graphene en_US
dc.subject Gas adsorption en_US
dc.subject Phonons en_US
dc.subject Mechanical stability en_US
dc.subject Elastic modulus en_US
dc.subject Boron-Nitride Nanotubes en_US
dc.subject Inorganic Nanotubes en_US
dc.subject Functionalization en_US
dc.subject Nanoparticles en_US
dc.subject Composites en_US
dc.subject Route en_US
dc.title Graphene analogues of BN: novel synthesis and properties en_US
dc.type Article en_US


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