Electronic Structure of the CuCl 2 (100) Surface: A DFT First-Principle Study

Sherin A. Saraireh; Mohammednoor Altarawneh

doi:10.1155/2012/767128

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Electronic Structure of the CuCl 2 (100) Surface: A DFT First-Principle Study

Journal article

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Electronic Structure of the CuCl 2 (100) Surface: A DFT First-Principle Study

Sherin A. Saraireh and Mohammednoor Altarawneh

Journal of nanomaterials, Vol.2012, pp.1-7

2012

DOI: https://doi.org/10.1155/2012/767128

Abstract

First-principle density functional theory (DFT) and a periodic-slab model have been utilized to investigate the structure of the CuCl 2 (100) surface. Structural parameters of the bulk CuCl 2 are reported and compared with the experimental values. The structure of the CuCl 2 (100) is calculated using a () supercell. Structural parameters in terms of bond lengths and bond angle are calculated. Electronic properties of the CuCl 2 (100) surface are investigated by calculating the density of state (DOS) and the projected density of state for a slab containing five layers.

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Title: Electronic Structure of the CuCl 2 (100) Surface: A DFT First-Principle Study
Creators - without role: Sherin A. Saraireh - Al-Hussein Bin Talal University
Mohammednoor Altarawneh - Al-Hussein Bin Talal University
Publication Details: Journal of nanomaterials, Vol.2012, pp.1-7
Identifiers: 9929621408331
Academic Unit: Taibah University
Language: English
Resource Type: Journal article