Molecular engineering of band level energies in oligothiophenes, through cyano-substitutions

Philippe Hapiot; Frédéric Demanze; Abderrahim Yassar; Francis Garnier

doi:10.1021/jp953226a

Molecular engineering of band level energies in oligothiophenes, through cyano-substitutions

Philippe Hapiot, Frédéric Demanze, Abderrahim Yassar, Francis Garnier

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Abstract

Conjugated bi- and terthiophenes have been substituted with cyano groups on several positions of the oligothiophene backbone. Their oxidation and reduction have been investigated in aprotic solvent (acetonitrile) by cyclic voltammetry. Most of the 10 studied compounds show two oxidation and two reduction waves, associated with the successive injection of one and two charges in these compounds. The reversibility of the first waves allows the determination of the formal potential of the corresponding radical cation, E_ox1, and radical anion, E_red1, and the calculation of an electrochemical energy gap, ΔE_g = E_ox1 - Ered1- The energy gap and the oxidation potential are found to be primarily dependent on the conjugation length of the oligothiophene chain, and substituents allow a further fine-tuning of the energies of the occupied and unoccupied molecular orbitals.

Original language	English
Pages (from-to)	8397-8401
Number of pages	5
Journal	Journal of Physical Chemistry
Volume	100
Issue number	20
DOIs	https://doi.org/10.1021/jp953226a
Publication status	Published - 16 May 1996

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title = "Molecular engineering of band level energies in oligothiophenes, through cyano-substitutions",

abstract = "Conjugated bi- and terthiophenes have been substituted with cyano groups on several positions of the oligothiophene backbone. Their oxidation and reduction have been investigated in aprotic solvent (acetonitrile) by cyclic voltammetry. Most of the 10 studied compounds show two oxidation and two reduction waves, associated with the successive injection of one and two charges in these compounds. The reversibility of the first waves allows the determination of the formal potential of the corresponding radical cation, Eox1, and radical anion, Ered1, and the calculation of an electrochemical energy gap, ΔEg = Eox1 - Ered1- The energy gap and the oxidation potential are found to be primarily dependent on the conjugation length of the oligothiophene chain, and substituents allow a further fine-tuning of the energies of the occupied and unoccupied molecular orbitals.",

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T1 - Molecular engineering of band level energies in oligothiophenes, through cyano-substitutions

AU - Hapiot, Philippe

AU - Demanze, Frédéric

AU - Yassar, Abderrahim

AU - Garnier, Francis

PY - 1996/5/16

Y1 - 1996/5/16

N2 - Conjugated bi- and terthiophenes have been substituted with cyano groups on several positions of the oligothiophene backbone. Their oxidation and reduction have been investigated in aprotic solvent (acetonitrile) by cyclic voltammetry. Most of the 10 studied compounds show two oxidation and two reduction waves, associated with the successive injection of one and two charges in these compounds. The reversibility of the first waves allows the determination of the formal potential of the corresponding radical cation, Eox1, and radical anion, Ered1, and the calculation of an electrochemical energy gap, ΔEg = Eox1 - Ered1- The energy gap and the oxidation potential are found to be primarily dependent on the conjugation length of the oligothiophene chain, and substituents allow a further fine-tuning of the energies of the occupied and unoccupied molecular orbitals.

AB - Conjugated bi- and terthiophenes have been substituted with cyano groups on several positions of the oligothiophene backbone. Their oxidation and reduction have been investigated in aprotic solvent (acetonitrile) by cyclic voltammetry. Most of the 10 studied compounds show two oxidation and two reduction waves, associated with the successive injection of one and two charges in these compounds. The reversibility of the first waves allows the determination of the formal potential of the corresponding radical cation, Eox1, and radical anion, Ered1, and the calculation of an electrochemical energy gap, ΔEg = Eox1 - Ered1- The energy gap and the oxidation potential are found to be primarily dependent on the conjugation length of the oligothiophene chain, and substituents allow a further fine-tuning of the energies of the occupied and unoccupied molecular orbitals.

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DO - 10.1021/jp953226a

M3 - Article

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SP - 8397

EP - 8401

JO - Journal of Physical Chemistry

JF - Journal of Physical Chemistry

IS - 20

ER -

Molecular engineering of band level energies in oligothiophenes, through cyano-substitutions

Abstract

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