Home Lista de Eventos Detalhes - Marcos Menezes (UFRJ): Tight Binding Parametrization of Few-layer Black Phosphorus

EMAIL Imprimir

Lista de Eventos

Evento 

Título:
Marcos Menezes (UFRJ): Tight Binding Parametrization of Few-layer Black Phosphorus
quando:
08.06.2017 11.00 h
onde:
Sala 429 (torre nova) - Niterói
Categoria:
Seminários

Descrição

Seminário de física da matéria condensada

 

Data e horário: 08/06 - 5a feira - 11h00

Sala: 429 (sala de seminários do 4o andar, Torre Nova)

Palestrante: Prof. Marcos Menezes - UFRJ

Título
Tight Binding Parametrization of Few-layer Black Phosphorus from First-Principles Calculations?

Resumo
Since the experimental discovery of graphene in 2004, an enormous scientific effort has been employed in the study of this material, which led to the observation of its remarkable properties and potential applications in the near future. This boom also brought attention to a broader range of materials, the so-called 2D materials, which share some similarities to graphene and can form single layers of one up to a few atoms thick. Among them, Black Phosphorus (BP) is a promising candidate for future applications in electronics, especially due to the tuning of its electronic band gap by the number of layers. In a single layer, also known as phosphorene, the P atoms form two staggered chains bonded by sp3 hybridization, while the different layers are bonded by weak Van-der-Waals interactions.

In this work, we employ a tight-binding parametrization based on the Slater Koster model in order to fit the band structures of single-layer, bilayer and bulk black phosphorus obtained from first-principles calculations. We find that our model, which includes 9 or 17 parameters depending on whether overlap is included or not, reproduces quite well the ab-initio band structures over a wide energy range, especially the occupied bands. Hopping and on-site energies are consistent throughout the different systems, which is an indication that our model is suitable for calculations on multilayer black phosphorus and more complex situations in which fi rst-principles calculations become prohibitive, such as disordered systems and heterostructures with a large lattice mismatch. We also discuss the limitations of the model and how the fi t procedure can be improved for a more accurate description of bands in the vicinity of the Fermi energy.

Grupo

Mapa
Grupo:
Sala 429 (torre nova)
Rua:
Av. Gal. Milton Tavares de Sousa s/n
CEP:
2421-346
Cidade:
Niterói
UF:
RJ
País:
País: br

Descrição

Desculpe, a descrição não está disponível