Bis(Vinylenedithio)-Tetrathiafulvalene-Based Coordination Networks

Federica Solano¹, Pascale Auban-Senzier², Iwona Olejniczak³, Bolesław Barszcz³, Tomasz Runka⁴, Pere Alemany⁵, Enric Canadell^{6

7}, Narcis Avarvari¹, Nicolas Zigon¹

Affiliations

¹ Univ Angers, CNRS, MOLTECH-ANJOU, SFR MATRIX, 49000, Angers, France.
² Université Paris-Saclay, CNRS, UMR 8502, Laboratoire de Physique des Solides, 91405, Orsay, France.
³ Institute of Molecular Physics, Polish Academy of Sciences, Smoluchowskiego 17, 60-179, Poznań, Poland.
⁴ Faculty of Materials Engineering and Technical Physics, Poznan University of Technology, Piotrowo 3, 60-965, Poznań, Poland.
⁵ Departament de Ciència de Materials i Química Física and, Institut de Química Teòrica i Computacional (IQTCUB), Universitat de Barcelona, Martí i Franquès 1, 08028, Barcelona, Spain.
⁶ Institut de Ciència de Materials de Barcelona, ICMAB-CSIC, Campus de la UAB, 08193, Bellaterra, Spain.
⁷ Royal Academy of Sciences and Arts of Barcelona, Chemistry Section, La Rambla 115, 08002, Barcelona, Spain.

PMID: 36349992
DOI: 10.1002/chem.202203138

Bis(Vinylenedithio)-Tetrathiafulvalene-Based Coordination Networks

Federica Solano et al. Chemistry. 2023.

. 2023 Feb 7;29(8):e202203138.

doi: 10.1002/chem.202203138. Epub 2022 Dec 14.

Authors

Federica Solano¹, Pascale Auban-Senzier², Iwona Olejniczak³, Bolesław Barszcz³, Tomasz Runka⁴, Pere Alemany⁵, Enric Canadell^{6

7}, Narcis Avarvari¹, Nicolas Zigon¹

Affiliations

¹ Univ Angers, CNRS, MOLTECH-ANJOU, SFR MATRIX, 49000, Angers, France.
² Université Paris-Saclay, CNRS, UMR 8502, Laboratoire de Physique des Solides, 91405, Orsay, France.
³ Institute of Molecular Physics, Polish Academy of Sciences, Smoluchowskiego 17, 60-179, Poznań, Poland.
⁴ Faculty of Materials Engineering and Technical Physics, Poznan University of Technology, Piotrowo 3, 60-965, Poznań, Poland.
⁵ Departament de Ciència de Materials i Química Física and, Institut de Química Teòrica i Computacional (IQTCUB), Universitat de Barcelona, Martí i Franquès 1, 08028, Barcelona, Spain.
⁶ Institut de Ciència de Materials de Barcelona, ICMAB-CSIC, Campus de la UAB, 08193, Bellaterra, Spain.
⁷ Royal Academy of Sciences and Arts of Barcelona, Chemistry Section, La Rambla 115, 08002, Barcelona, Spain.

PMID: 36349992
DOI: 10.1002/chem.202203138

Abstract

Novel coordination polymers embedding electroactive moieties present a high interest in the development of porous conducting materials. While tetrathiafulvalene (TTF) based metal-organic frameworks were reported to yield through-space conducting frameworks, the use of S-enriched scaffolds remains elusive in this field. Herein is reported the employment of bis(vinylenedithio)-tetrathiafulvalene (BVDT-TTF) functionalized with pyridine coordinating moieties in coordination polymers. Its combination with various transition metals yielded four isostructural networks, whose conductivity increased upon chemical oxidation with iodine. The oxidation was confirmed in a single-crystal to single-crystal X-ray diffraction experiment for the Cd(II) coordination polymer. Raman spectroscopy measurements and DFT calculations confirmed the oxidation state of the bulk materials, and band structure calculations assessed the ground state as an electronically localized antiferromagnetic state, while the conduction occurs in a 2D manner. These results are shedding light to comprehend how to improve through-space conductivity thanks to sulfur enriched ligands.

Keywords: Raman spectroscopy; X-ray diffraction; conducting materials; crystal engineering; metal-organic frameworks.

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Bis(Vinylenedithio)-Tetrathiafulvalene-Based Coordination Networks

Affiliations

Bis(Vinylenedithio)-Tetrathiafulvalene-Based Coordination Networks

Authors

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References

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