DFT Study of Polythiophene Energy Band Gap and Substitution Effects

DFT Study of Polythiophene Energy Band Gap and Substitution Effects

Polythiophene (PTh) and its derivatives are polymer-based materials with a π-conjugation framework. PTh is a useful photoelectric material and can be used in organic semiconductor devices, such as PLED, OLED, and solar cells. Their properties are based on molecular structure; the derivatives contain...

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Main Authors: Si. Mohamed Bouzzine, Guillermo Salgado-Morán, Mohamed Hamidi, Mohammed Bouachrine, Alison Geraldo Pacheco, Daniel Glossman-Mitnik
Format: Article
Language:English
Published: Hindawi Limited 2015-01-01
Series:Journal of Chemistry
Online Access:http://dx.doi.org/10.1155/2015/296386
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spelling doaj-0f203f59d94f4d24a4ee6a40e01ec8e22020-11-24T23:49:31ZengHindawi LimitedJournal of Chemistry2090-90632090-90712015-01-01201510.1155/2015/296386296386DFT Study of Polythiophene Energy Band Gap and Substitution EffectsSi. Mohamed Bouzzine0Guillermo Salgado-Morán1Mohamed Hamidi2Mohammed Bouachrine3Alison Geraldo Pacheco4Daniel Glossman-Mitnik5Regional Center for Trades and Professional Education, annex Errachidia, BP 8, 52000 Meknes, MoroccoDepartamento de Ciencias Químicas, Facultad de Ciencias Exactas, Universidad Andrés Bello, Sede Concepción, 4070000 Concepción, ChileEquipe d’Electrochimie et Environnement, Faculté des Sciences et Techniques, Université Moulay Ismail, B.P. 509 Boutalamine, 52000 Errachidia, MoroccoHigh School of Technology, University Moulay Ismail, Route d’Agouray, Km 5, BP 3102, Toulal, 50000 Meknes, MoroccoInstituto Federal de Educação Ciência e Tecnologia do Sul de Minas Gerais, 37576-000 Inconfidentes, MG, BrazilLaboratorio Virtual NANOCOSMOS, Departamento de Medio Ambiente y Energía, Centro de Investigación en Materiales Avanzados, 31136 Chihuahua, CHIH, MexicoPolythiophene (PTh) and its derivatives are polymer-based materials with a π-conjugation framework. PTh is a useful photoelectric material and can be used in organic semiconductor devices, such as PLED, OLED, and solar cells. Their properties are based on molecular structure; the derivatives contain different substitutes in the 3 and 5 positions, such as electron-donating or electron-withdrawing groups. All molecular geometries were optimized at B3LYP/6-31G(d,p) level of theory. The energy gap (Egap) between the HOMO and LUMO levels is related to the π-conjugation in the PTh polymer backbone. In this study, the DFT calculations were performed for the nonsubstituted and 3,5-substituted variants to investigate the stability geometries and electrical properties. The theoretical calculations show that the substituted forms are stable, have low Egap, and are in good agreement with the experimental observations.http://dx.doi.org/10.1155/2015/296386
collection DOAJ
language English
format Article
sources DOAJ
author Si. Mohamed Bouzzine
Guillermo Salgado-Morán
Mohamed Hamidi
Mohammed Bouachrine
Alison Geraldo Pacheco
Daniel Glossman-Mitnik
spellingShingle Si. Mohamed Bouzzine
Guillermo Salgado-Morán
Mohamed Hamidi
Mohammed Bouachrine
Alison Geraldo Pacheco
Daniel Glossman-Mitnik
DFT Study of Polythiophene Energy Band Gap and Substitution Effects
Journal of Chemistry
author_facet Si. Mohamed Bouzzine
Guillermo Salgado-Morán
Mohamed Hamidi
Mohammed Bouachrine
Alison Geraldo Pacheco
Daniel Glossman-Mitnik
author_sort Si. Mohamed Bouzzine
title DFT Study of Polythiophene Energy Band Gap and Substitution Effects
title_short DFT Study of Polythiophene Energy Band Gap and Substitution Effects
title_full DFT Study of Polythiophene Energy Band Gap and Substitution Effects
title_fullStr DFT Study of Polythiophene Energy Band Gap and Substitution Effects
title_full_unstemmed DFT Study of Polythiophene Energy Band Gap and Substitution Effects
title_sort dft study of polythiophene energy band gap and substitution effects
publisher Hindawi Limited
series Journal of Chemistry
issn 2090-9063
2090-9071
publishDate 2015-01-01
description Polythiophene (PTh) and its derivatives are polymer-based materials with a π-conjugation framework. PTh is a useful photoelectric material and can be used in organic semiconductor devices, such as PLED, OLED, and solar cells. Their properties are based on molecular structure; the derivatives contain different substitutes in the 3 and 5 positions, such as electron-donating or electron-withdrawing groups. All molecular geometries were optimized at B3LYP/6-31G(d,p) level of theory. The energy gap (Egap) between the HOMO and LUMO levels is related to the π-conjugation in the PTh polymer backbone. In this study, the DFT calculations were performed for the nonsubstituted and 3,5-substituted variants to investigate the stability geometries and electrical properties. The theoretical calculations show that the substituted forms are stable, have low Egap, and are in good agreement with the experimental observations.
url http://dx.doi.org/10.1155/2015/296386
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