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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Estudo de Estrutura Eletrônica de Nanofitas de Nitreto de Boro utilizando Cálculos de Primeiros Princípios / Study of Electronic Structure of nanobelts Boron Nitride using calculations First Principles

Frazão, Nilton Ferreira 30 March 2009 (has links)
Made available in DSpace on 2016-08-18T18:19:26Z (GMT). No. of bitstreams: 1 Nilton Ferreira Frazao.pdf: 1298809 bytes, checksum: 5aca0b703a735a7fb605b7bdee658bdd (MD5) Previous issue date: 2009-03-30 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Recently, the existence of nanoribbon of Boron Nitride with finite size was discovered experimentally, in porous nanoesferas of BN (100-400 nm of diameter), synthesized for the reaction of B2O3 with carbon spheres contend nanoporos filled for Nitrogen to a temperature of 17500C. However a theoretical inquiry of the properties of this nanometerial did not exist. Then, in this present work, we carry through simulation of molecular mechanics using field of universal force (forcefild) to optimize the structure of some of these nanoribbon of Boron Nitride, with objective to find a conformation more steady, that is, of lesser energy for these nanostructures. Later, we investigate the electronic properties of these nanoribbon of Boron Nitride (NRBN) in the finite form (not-periodic) of two types: nanoribbon of Boron Nitride of the type to armchair (a-NRBN) and nanoribbon of Boron Nitride of the type zigzag (z-NRBN). The study of these properties they had been carried through of calculations of first principles based in the Density Functional Theory, with the local density approximation (LDA). Through our calculations, we observe that all the nanoribbon are metallic when we made the analysis of the density of states (DOS). Result not waited, but surprising, therefore of literature we know that material nanostructuralized of Boron Nitride they are always semiconductors. However, our calculations had shown that as much a-NRBN as z-NRBN had presented a conducting electronic character. The simulations had been carried through for many cases of nanoribbon of width (L) and length (C), forming a pair of indices (L, C), with the objective to facilitate the identification of these nanostructures. However we will present the results of but twelve of these, being: (1,3), (1,6), (1,9), (2,3), (2,6) e (2,9) in such a way of the types a-NRBN and z-NRBN. / Recentemente, foi descoberto experimentalmente a existência de Nanofitas de Nitreto de Boro (BN) de tamanho finito, em nanoesferas porosas de BN (100-400 nm de diâmetro), sintetizada pela reação de B2O3 com esferas de carbono contendo nanoporos preenchidos por Nitrogênio a uma temperatura de 17500C. No entanto não existia uma investigação teórica das propriedades desses nanocompósitos. Então, neste presente trabalho, realizamos simulações de mecânica molecular usando campo de força universal (forcefild) para otimizar a estrutura de algumas destas nanofitas de Nitreto de Boro, com objetivo de encontrar uma conformação mais estável, ou seja, de menor energia para essas nanoestruturas. Depois, investigamos as propriedades eletrônicas dessas nanofitas de Nitreto de Boro (NRBN) na forma finita (não-periódica) de dois tipos: nanofitas de Nitreto de Boro do tipo armchair (a-NRBN) e nanofitas de Nitreto de Boro do tipo zigzag (z-NRBN). O estudo destas propriedades foram realizados através de cálculos de primeiros princípios baseados na Teoria do Funcional da Densidade, com a aproximação da densidade local (LDA). Através de nossos cálculos, observamos que todas as nanofitas são metálicas quando fizemos a análise da densidade de estados eletrônicos (DOS). Resultado não esperado, mas surpreendente, pois da literatura sabemos que materiais nanoestruturados de Nitreto de Boro são sempre semicondutores. No entanto, nossos cálculos mostraram que tanto as a- NRBN como as z-NRBN apresentaram um caráter eletrônico condutor. As simulações foram realizadas para muitos casos de nanofitas de largura (L) e comprimento (C), formando um par de índices (L, C), com o objetivo de facilitar a identificação dessas nanoestruturas. No entanto apresentaremos os resultados de apenas doze dessas, sendo: (1,3), (1,6), (1,9), (2,3), (2,6) e (2,9) tanto dos tipos a-NRBN e z-NRBN.

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