Comparison of thiophene-pyrrole oligomers with oligothiophenes: A joint experimental and theoretical investigation of their structural and spectroscopic properties

María Moreno Oliva; Ted M. Pappenfus; Jacob H. Melby; Kathryn M. Schwaderer; Jared C. Johnson; Kari A. McGee; Demetrio A. Da Silva Filho; Jean-Luc Bredas; Juan Casado; Juan T. López Navarrete

doi:10.1002/chem.201000143

Comparison of thiophene-pyrrole oligomers with oligothiophenes: A joint experimental and theoretical investigation of their structural and spectroscopic properties

María Moreno Oliva, Ted M. Pappenfus, Jacob H. Melby, Kathryn M. Schwaderer, Jared C. Johnson, Kari A. McGee, Demetrio A. Da Silva Filho, Jean-Luc Bredas, Juan Casado, Juan T. López Navarrete

Physical Sciences and Engineering

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27 Scopus citations

Abstract

We have prepared a new series of mixed thiophene-pyrrole oligomers to investigate the electronic benefits arising from the combination of these two heterocycles. The oligomers are functionalized with several hexyl and aryl groups to improve both processability and chemical robustness. An analysis of their spectroscopic (absorption and emission), photophysical, electrochemical, solid state, and vibrational properties is performed in combination with quantum-chemical calculations. This analysis provides relevant information regarding the use of these materials as organic semiconductors. The balance between the high aromatic character of pyrrole and the moderate aromaticity of thiophene allows us to address the impact of the coupling of these heterocycles in conjugated systems. The data are interpreted on the basis of the aromaticity, molecular conformations, ground and excited electronic state structures, frontier orbital topologies and energies, oxidative states, and quinoidal versus aromatic competition.

Original language	English (US)
Pages (from-to)	6866-6876
Number of pages	11
Journal	Chemistry - A European Journal
Volume	16
Issue number	23
DOIs	https://doi.org/10.1002/chem.201000143
State	Published - Jun 18 2010

Keywords

Heterocycles
Oligomers
Oligothiophenes
Quantum chemistry
Semiconductors

ASJC Scopus subject areas

Catalysis
Chemistry(all)
Organic Chemistry

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10.1002/chem.201000143

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Oliva, M. M., Pappenfus, T. M., Melby, J. H., Schwaderer, K. M., Johnson, J. C., McGee, K. A., Da Silva Filho, D. A., Bredas, J-L., Casado, J., & López Navarrete, J. T. (2010). Comparison of thiophene-pyrrole oligomers with oligothiophenes: A joint experimental and theoretical investigation of their structural and spectroscopic properties. Chemistry - A European Journal, 16(23), 6866-6876. https://doi.org/10.1002/chem.201000143

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title = "Comparison of thiophene-pyrrole oligomers with oligothiophenes: A joint experimental and theoretical investigation of their structural and spectroscopic properties",

abstract = "We have prepared a new series of mixed thiophene-pyrrole oligomers to investigate the electronic benefits arising from the combination of these two heterocycles. The oligomers are functionalized with several hexyl and aryl groups to improve both processability and chemical robustness. An analysis of their spectroscopic (absorption and emission), photophysical, electrochemical, solid state, and vibrational properties is performed in combination with quantum-chemical calculations. This analysis provides relevant information regarding the use of these materials as organic semiconductors. The balance between the high aromatic character of pyrrole and the moderate aromaticity of thiophene allows us to address the impact of the coupling of these heterocycles in conjugated systems. The data are interpreted on the basis of the aromaticity, molecular conformations, ground and excited electronic state structures, frontier orbital topologies and energies, oxidative states, and quinoidal versus aromatic competition.",

keywords = "Heterocycles, Oligomers, Oligothiophenes, Quantum chemistry, Semiconductors",

author = "Oliva, {Mar{\'i}a Moreno} and Pappenfus, {Ted M.} and Melby, {Jacob H.} and Schwaderer, {Kathryn M.} and Johnson, {Jared C.} and McGee, {Kari A.} and {Da Silva Filho}, {Demetrio A.} and Jean-Luc Bredas and Juan Casado and {L{\'o}pez Navarrete}, {Juan T.}",

year = "2010",

month = jun,

day = "18",

doi = "10.1002/chem.201000143",

language = "English (US)",

volume = "16",

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Oliva, MM, Pappenfus, TM, Melby, JH, Schwaderer, KM, Johnson, JC, McGee, KA, Da Silva Filho, DA, Bredas, J-L, Casado, J & López Navarrete, JT 2010, 'Comparison of thiophene-pyrrole oligomers with oligothiophenes: A joint experimental and theoretical investigation of their structural and spectroscopic properties', Chemistry - A European Journal, vol. 16, no. 23, pp. 6866-6876. https://doi.org/10.1002/chem.201000143

Comparison of thiophene-pyrrole oligomers with oligothiophenes: A joint experimental and theoretical investigation of their structural and spectroscopic properties. / Oliva, María Moreno; Pappenfus, Ted M.; Melby, Jacob H. et al.
In: Chemistry - A European Journal, Vol. 16, No. 23, 18.06.2010, p. 6866-6876.

Research output: Contribution to journal › Article › peer-review

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T1 - Comparison of thiophene-pyrrole oligomers with oligothiophenes

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AU - Oliva, María Moreno

AU - Pappenfus, Ted M.

AU - Melby, Jacob H.

AU - Schwaderer, Kathryn M.

AU - Johnson, Jared C.

AU - McGee, Kari A.

AU - Da Silva Filho, Demetrio A.

AU - Bredas, Jean-Luc

AU - Casado, Juan

AU - López Navarrete, Juan T.

PY - 2010/6/18

Y1 - 2010/6/18

N2 - We have prepared a new series of mixed thiophene-pyrrole oligomers to investigate the electronic benefits arising from the combination of these two heterocycles. The oligomers are functionalized with several hexyl and aryl groups to improve both processability and chemical robustness. An analysis of their spectroscopic (absorption and emission), photophysical, electrochemical, solid state, and vibrational properties is performed in combination with quantum-chemical calculations. This analysis provides relevant information regarding the use of these materials as organic semiconductors. The balance between the high aromatic character of pyrrole and the moderate aromaticity of thiophene allows us to address the impact of the coupling of these heterocycles in conjugated systems. The data are interpreted on the basis of the aromaticity, molecular conformations, ground and excited electronic state structures, frontier orbital topologies and energies, oxidative states, and quinoidal versus aromatic competition.

AB - We have prepared a new series of mixed thiophene-pyrrole oligomers to investigate the electronic benefits arising from the combination of these two heterocycles. The oligomers are functionalized with several hexyl and aryl groups to improve both processability and chemical robustness. An analysis of their spectroscopic (absorption and emission), photophysical, electrochemical, solid state, and vibrational properties is performed in combination with quantum-chemical calculations. This analysis provides relevant information regarding the use of these materials as organic semiconductors. The balance between the high aromatic character of pyrrole and the moderate aromaticity of thiophene allows us to address the impact of the coupling of these heterocycles in conjugated systems. The data are interpreted on the basis of the aromaticity, molecular conformations, ground and excited electronic state structures, frontier orbital topologies and energies, oxidative states, and quinoidal versus aromatic competition.

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KW - Oligothiophenes

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JO - Chemistry - A European Journal

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ER -

Comparison of thiophene-pyrrole oligomers with oligothiophenes: A joint experimental and theoretical investigation of their structural and spectroscopic properties

Abstract

Keywords

ASJC Scopus subject areas

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