π-Conjugated stannole copolymers synthesised by a tin-selective Stille cross-coupling reaction

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Authors

  • Isabel-Maria Ramirez y Medina
  • Markus Rohdenburg
  • Pascal Rusch
  • Daniel Duvinage
  • Nadja C. Bigall
  • Anne Staubitz
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Details

Original languageEnglish
Pages (from-to)3282-3293
Number of pages12
JournalMaterials Advances
Volume2
Issue number10
Early online date27 Mar 2021
Publication statusPublished - 21 May 2021

Abstract

The synthesis of four well-defined conjugated polymers TStTT1-4 containing unusual heterocycle units in the main chain, namely stannole units as building blocks, is reported. The stannole-thiophenyl copolymers were generated by tin-selective Stille coupling reactions in nearly quantitative yields of 94% to 98%. NMR data show that the tin atoms in the rings remain unaffected. Weight-average molecular weights (Mw) were high (4900-10 900 Da and 9600-21 900 Da); and molecular weight distributions (Mw/Mn) were between 1.9 and 2.3. The new materials are strongly absorbing and appear blue-black to purple-black. All iodothiophenyl-stannole monomers St1-4 and the resulting bisthiophenyl-stannole copolymers TStTT1-4 were investigated with respect to their optoelectronic properties. The absorption maxima of the polymers are strongly bathochromically shifted compared to their monomers by about 76 nm to 126 nm in chloroform. Density functional theory calculations support our experimental results of the single stannoles St1-4 showing small HOMO-LUMO energy gaps of 3.17-3.24 eV. The optical band gaps of the polymers are much more decreased and were determined to be only 1.61-1.79 eV. Furthermore, both the molecular structures of stannoles St2 and St3 from single crystal X-ray analyses and the results of the geometry optimisation by DFT confirm the high planarity of the molecules backbone leading to efficient conjugation within the molecule.

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Cite this

π-Conjugated stannole copolymers synthesised by a tin-selective Stille cross-coupling reaction. / Ramirez y Medina, Isabel-Maria; Rohdenburg, Markus; Rusch, Pascal et al.
In: Materials Advances, Vol. 2, No. 10, 21.05.2021, p. 3282-3293.

Research output: Contribution to journalArticleResearchpeer review

Ramirez y Medina, I-M, Rohdenburg, M, Rusch, P, Duvinage, D, Bigall, NC & Staubitz, A 2021, 'π-Conjugated stannole copolymers synthesised by a tin-selective Stille cross-coupling reaction', Materials Advances, vol. 2, no. 10, pp. 3282-3293. https://doi.org/10.1039/d1ma00104c
Ramirez y Medina, I.-M., Rohdenburg, M., Rusch, P., Duvinage, D., Bigall, N. C., & Staubitz, A. (2021). π-Conjugated stannole copolymers synthesised by a tin-selective Stille cross-coupling reaction. Materials Advances, 2(10), 3282-3293. https://doi.org/10.1039/d1ma00104c
Ramirez y Medina IM, Rohdenburg M, Rusch P, Duvinage D, Bigall NC, Staubitz A. π-Conjugated stannole copolymers synthesised by a tin-selective Stille cross-coupling reaction. Materials Advances. 2021 May 21;2(10):3282-3293. Epub 2021 Mar 27. doi: 10.1039/d1ma00104c
Ramirez y Medina, Isabel-Maria ; Rohdenburg, Markus ; Rusch, Pascal et al. / π-Conjugated stannole copolymers synthesised by a tin-selective Stille cross-coupling reaction. In: Materials Advances. 2021 ; Vol. 2, No. 10. pp. 3282-3293.
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abstract = "The synthesis of four well-defined conjugated polymers TStTT1-4 containing unusual heterocycle units in the main chain, namely stannole units as building blocks, is reported. The stannole-thiophenyl copolymers were generated by tin-selective Stille coupling reactions in nearly quantitative yields of 94% to 98%. NMR data show that the tin atoms in the rings remain unaffected. Weight-average molecular weights (Mw) were high (4900-10 900 Da and 9600-21 900 Da); and molecular weight distributions (Mw/Mn) were between 1.9 and 2.3. The new materials are strongly absorbing and appear blue-black to purple-black. All iodothiophenyl-stannole monomers St1-4 and the resulting bisthiophenyl-stannole copolymers TStTT1-4 were investigated with respect to their optoelectronic properties. The absorption maxima of the polymers are strongly bathochromically shifted compared to their monomers by about 76 nm to 126 nm in chloroform. Density functional theory calculations support our experimental results of the single stannoles St1-4 showing small HOMO-LUMO energy gaps of 3.17-3.24 eV. The optical band gaps of the polymers are much more decreased and were determined to be only 1.61-1.79 eV. Furthermore, both the molecular structures of stannoles St2 and St3 from single crystal X-ray analyses and the results of the geometry optimisation by DFT confirm the high planarity of the molecules backbone leading to efficient conjugation within the molecule.",
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AU - Ramirez y Medina, Isabel-Maria

AU - Rohdenburg, Markus

AU - Rusch, Pascal

AU - Duvinage, Daniel

AU - Bigall, Nadja C.

AU - Staubitz, Anne

N1 - Funding Information: The computations for this work were done with resources of Leipzig University Computing Center (M. R.). N. C. B. and P. R. thank the DFG for partial funding under Germany's Excellence Strategy within the Cluster of Excellence PhoenixD (EXC 2122, Project ID 390833453) and the European Research Council (ERC) under the European Union's Horizon 2020 research and innovation programme (grant agreement No. 714429). We thank Fangshun Yang (Leibniz IOM) and Katharina Richter (IFAM Bremen) for their support with the MALDI results.

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N2 - The synthesis of four well-defined conjugated polymers TStTT1-4 containing unusual heterocycle units in the main chain, namely stannole units as building blocks, is reported. The stannole-thiophenyl copolymers were generated by tin-selective Stille coupling reactions in nearly quantitative yields of 94% to 98%. NMR data show that the tin atoms in the rings remain unaffected. Weight-average molecular weights (Mw) were high (4900-10 900 Da and 9600-21 900 Da); and molecular weight distributions (Mw/Mn) were between 1.9 and 2.3. The new materials are strongly absorbing and appear blue-black to purple-black. All iodothiophenyl-stannole monomers St1-4 and the resulting bisthiophenyl-stannole copolymers TStTT1-4 were investigated with respect to their optoelectronic properties. The absorption maxima of the polymers are strongly bathochromically shifted compared to their monomers by about 76 nm to 126 nm in chloroform. Density functional theory calculations support our experimental results of the single stannoles St1-4 showing small HOMO-LUMO energy gaps of 3.17-3.24 eV. The optical band gaps of the polymers are much more decreased and were determined to be only 1.61-1.79 eV. Furthermore, both the molecular structures of stannoles St2 and St3 from single crystal X-ray analyses and the results of the geometry optimisation by DFT confirm the high planarity of the molecules backbone leading to efficient conjugation within the molecule.

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