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Tipo:	Tese
Título:	Structural, electronic and mechanical properties of two-dimensional silica SiO2
Autor(es):	Nestor Javier Fajardo Reina
Primeiro Orientador:	Ricardo Wagner Nunes
Primeiro membro da banca :	Bernardo Ruegger Almeida Neves
Segundo membro da banca:	Edmar Avellar Soares
Terceiro membro da banca:	Pedro Paulo de Mello Venezuela
Quarto membro da banca:	Rodrigo Barbosa Capaz
Resumo:	Structural, electronic and mechanical properties of pristine 2D-SiO 2 bilayer, considering neutral native defects, and substitutional impurities: Al, B and P, and also some topological defects, have been addressed, by employing the Kohn-Sham DFT approach as implemented in SIESTA and VASP softwares. We identify a marked tendency for the appearance of strongly spatially localized defect states in the energy gap and resonances in the valence and conduction bands, with some independence of being shallow or deep within the band gap. This highly located states are consequence of quantum confinement and enhanced Coulombic effects in this 2D system. The 2D-SiO 2 lattice responds locally to the induced deformation in the studied point defects, and we propose low energy structural excitations: scissor and rotation modes as responsible. We believe these soft modes are in deep relation with the mechanical response of 2D-SiO 2 . Oxygen vacancies and single interstitials are found to be amphoteric trapping centers in 2D-SiO 2 . The aluminium impurity induces spin separation, showing a different degree of localization of each spin channel. The Stone-Wales (SW) defect shows an interesting behaviour: it is energetically more feasible to turn both layers than to turn just one. Using the Wu, Zhang and Pantelides’s (WZP) methodology we show that only neutral and negative charged states are allowed in the phosphorus impurity. The 2D-SiO 2 bilayer displays a singular mechanical behaviour: as in the 3D counterpart (α-quartz), exhibits two different elastic linear regimes; and in contrast, 2D-SiO2 exhibits a wide range of elastic response, being able to return to the unstrained ground state starting from large strains in ZZ and AC directions. The energy surface of this system exhibits many available metastable states, and the transit between them can be driven by scissor and rotation degrees of freedom associated with the Si-O-Si bonds. We propose a kind of hyper-elasticity in this material is driven not by usual mechanisms such as formation of dislocations or plastic flow, but by strain-induced transitions, where the system starts a new elastic response from a new minimum offered by the many-minima energy surface.
Assunto:	Silica Estrutura eletrônica Defeitos pontuais Propriedades mecânicas
Idioma:	eng
País:	Brasil
Editor:	Universidade Federal de Minas Gerais
Sigla da Instituição:	UFMG
Departamento:	ICX - DEPARTAMENTO DE FÍSICA
Curso:	Programa de Pós-Graduação em Física
Tipo de Acesso:	Acesso Aberto
URI:	http://hdl.handle.net/1843/55266
Data do documento:	28-Fev-2023
Aparece nas coleções:	Teses de Doutorado

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