Understanding optoelectronic properties of cyano-terminated oligothiophenes in the context of intramolecular charge transfer

Sandra Rodríguez González; Jesús Orduna; Raquel Alicante; Belén Villacampa; Kari A. McGee; João Pina; J. Seixas De Melo; Kathryn M. Schwaderer; Jared C. Johnson; Brady A. Blackorbay; Jacob J. Hansmeier; Victoria F. Bolton; Tyler J. Helland; Brett A. Edlund; Ted M. Pappenfus; Juan T. López Navarrete; Juan Casado

doi:10.1021/jp2070375

Understanding optoelectronic properties of cyano-terminated oligothiophenes in the context of intramolecular charge transfer

Sandra Rodríguez González, Jesús Orduna, Raquel Alicante, Belén Villacampa, Kari A. McGee, João Pina, J. Seixas De Melo, Kathryn M. Schwaderer, Jared C. Johnson, Brady A. Blackorbay, Jacob J. Hansmeier, Victoria F. Bolton, Tyler J. Helland, Brett A. Edlund, Ted M. Pappenfus, Juan T. López Navarrete, Juan Casado

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Abstract

In this paper we have prepared a new series of oligothiophenes capped with hexyl groups and a variety of strong acceptors, mainly cyanovinyl moieties. An exhaustive analysis of the absorption, photophysical, electrochemical, solid state, nonlinear optical and vibrational properties has been presented guided by theoretical calculations. The investigation is centered on the efficiency of the intramolecular charge transfer (i.e., chain length and acceptor dependence) and its impact on all the relevant electronic, structural, optical, and vibrational properties. The most significant features imparted by the acceptors through the π-conjugated oligothiophene path are (i) intense visible electronic absorptions, (ii) tuned fluorescence wavelength emissions, (iii) solid state π-stacking, (iv) ambipolar redox behavior, (v) S₁ ? S₀ internal conversion as being the major route for the deactivation of the excited state, and (vi) large electronic and vibrational contributions to their nonlinear optical response (hyperpolarizability). The analysis establishes connections between the different properties of the materials and structure-function relationships useful in organic electronics.

Original language	English (US)
Pages (from-to)	10573-10585
Number of pages	13
Journal	Journal of Physical Chemistry B
Volume	115
Issue number	36
DOIs	https://doi.org/10.1021/jp2070375
State	Published - Sep 15 2011
Externally published	Yes

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González, S. R., Orduna, J., Alicante, R., Villacampa, B., McGee, K. A., Pina, J., Seixas De Melo, J., Schwaderer, K. M., Johnson, J. C., Blackorbay, B. A., Hansmeier, J. J., Bolton, V. F., Helland, T. J., Edlund, B. A., Pappenfus, T. M., López Navarrete, J. T., & Casado, J. (2011). Understanding optoelectronic properties of cyano-terminated oligothiophenes in the context of intramolecular charge transfer. Journal of Physical Chemistry B, 115(36), 10573-10585. https://doi.org/10.1021/jp2070375

González, SR, Orduna, J, Alicante, R, Villacampa, B, McGee, KA, Pina, J, Seixas De Melo, J, Schwaderer, KM, Johnson, JC, Blackorbay, BA, Hansmeier, JJ, Bolton, VF, Helland, TJ, Edlund, BA, Pappenfus, TM, López Navarrete, JT & Casado, J 2011, 'Understanding optoelectronic properties of cyano-terminated oligothiophenes in the context of intramolecular charge transfer', Journal of Physical Chemistry B, vol. 115, no. 36, pp. 10573-10585. https://doi.org/10.1021/jp2070375

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abstract = "In this paper we have prepared a new series of oligothiophenes capped with hexyl groups and a variety of strong acceptors, mainly cyanovinyl moieties. An exhaustive analysis of the absorption, photophysical, electrochemical, solid state, nonlinear optical and vibrational properties has been presented guided by theoretical calculations. The investigation is centered on the efficiency of the intramolecular charge transfer (i.e., chain length and acceptor dependence) and its impact on all the relevant electronic, structural, optical, and vibrational properties. The most significant features imparted by the acceptors through the π-conjugated oligothiophene path are (i) intense visible electronic absorptions, (ii) tuned fluorescence wavelength emissions, (iii) solid state π-stacking, (iv) ambipolar redox behavior, (v) S1 ? S0 internal conversion as being the major route for the deactivation of the excited state, and (vi) large electronic and vibrational contributions to their nonlinear optical response (hyperpolarizability). The analysis establishes connections between the different properties of the materials and structure-function relationships useful in organic electronics.",

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AU - Alicante, Raquel

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AU - McGee, Kari A.

AU - Pina, João

AU - Seixas De Melo, J.

AU - Schwaderer, Kathryn M.

AU - Johnson, Jared C.

AU - Blackorbay, Brady A.

AU - Hansmeier, Jacob J.

AU - Bolton, Victoria F.

AU - Helland, Tyler J.

AU - Edlund, Brett A.

AU - Pappenfus, Ted M.

AU - López Navarrete, Juan T.

AU - Casado, Juan

PY - 2011/9/15

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AB - In this paper we have prepared a new series of oligothiophenes capped with hexyl groups and a variety of strong acceptors, mainly cyanovinyl moieties. An exhaustive analysis of the absorption, photophysical, electrochemical, solid state, nonlinear optical and vibrational properties has been presented guided by theoretical calculations. The investigation is centered on the efficiency of the intramolecular charge transfer (i.e., chain length and acceptor dependence) and its impact on all the relevant electronic, structural, optical, and vibrational properties. The most significant features imparted by the acceptors through the π-conjugated oligothiophene path are (i) intense visible electronic absorptions, (ii) tuned fluorescence wavelength emissions, (iii) solid state π-stacking, (iv) ambipolar redox behavior, (v) S1 ? S0 internal conversion as being the major route for the deactivation of the excited state, and (vi) large electronic and vibrational contributions to their nonlinear optical response (hyperpolarizability). The analysis establishes connections between the different properties of the materials and structure-function relationships useful in organic electronics.

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Understanding optoelectronic properties of cyano-terminated oligothiophenes in the context of intramolecular charge transfer

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