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Synthesis of racemic and chiral BEDT-TTF derivatives possessing hydroxy groups and their achiral and chiral charge transfer complexes

Chiral molecular crystals built up by chiral molecules without inversion centers have attracted much interest owing to their versatile functionalities related to optical, magnetic, and electrical properties. However, there is a difficulty in chiral crystal growth due to the lack of symmetry. Therefo...

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Autores principales: Krivickas, Sara Jane, Hashimoto, Chiho, Yoshida, Junya, Ueda, Akira, Takahashi, Kazuyuki, Wallis, John D, Mori, Hatsumi
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Beilstein-Institut 2015
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4660918/
https://www.ncbi.nlm.nih.gov/pubmed/26664576
http://dx.doi.org/10.3762/bjoc.11.172
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author Krivickas, Sara Jane
Hashimoto, Chiho
Yoshida, Junya
Ueda, Akira
Takahashi, Kazuyuki
Wallis, John D
Mori, Hatsumi
author_facet Krivickas, Sara Jane
Hashimoto, Chiho
Yoshida, Junya
Ueda, Akira
Takahashi, Kazuyuki
Wallis, John D
Mori, Hatsumi
author_sort Krivickas, Sara Jane
collection PubMed
description Chiral molecular crystals built up by chiral molecules without inversion centers have attracted much interest owing to their versatile functionalities related to optical, magnetic, and electrical properties. However, there is a difficulty in chiral crystal growth due to the lack of symmetry. Therefore, we made the molecular design to introduce intermolecular hydrogen bonds in chiral crystals. Racemic and enantiopure bis(ethylenedithio)tetrathiafulvalene (BEDT-TTF) derivatives possessing hydroxymethyl groups as the source of hydrogen bonds were designed. The novel racemic trans-vic-(hydroxymethyl)(methyl)-BEDT-TTF 1, and racemic and enantiopure trans-vic-bis(hydroxymethyl)-BEDT-TTF 2 were synthesized. Moreover, the preparations, crystal structure analyses, and electrical resistivity measurements of the novel achiral charge transfer salt θ(21)-[(S,S)-2](3)[(R,R)-2](3)(ClO(4))(2) and the chiral salt α’-[(R,R)-2]ClO(4)(H(2)O) were carried out. In the former θ(21)-[(S,S)-2](3)[(R,R)-2](3)(ClO(4))(2), there are two sets of three crystallographically independent donor molecules [(S,S)-2](2)[(R,R)-2] in a unit cell, where the two sets are related by an inversion center. The latter α’-[(R,R)-2]ClO(4)(H(2)O) is the chiral salt with included solvent H(2)O, which is not isostructural with the reported chiral salt α’-[(S,S)-2]ClO(4) without H(2)O, but has a similar donor arrangement. According to the molecular design by introduction of hydroxy groups and a ClO(4)(−) anion, many intermediate-strength intermolecular hydrogen bonds (2.6–3.0 Å) were observed in these crystals between electron donor molecules, anions, and included H(2)O solvent, which improve the crystallinity and facilitate the extraction of physical properties. Both salts are semiconductors with relatively low resistivities at room temperature and activation energies of 1.2 ohm cm with E(a) = 86 meV for θ(21)-[(S,S)-2](3)[(R,R)-2](3)(ClO(4))(2) and 0.6 ohm cm with E(a) = 140 meV for α'-[(R,R)-2](2)ClO(4)(H(2)O), respectively. The variety of donor arrangements, θ(21) and two kinds of α’-types, and their electrical conductivities of charge transfer complexes based upon the racemic and enantiopure (S,S)-2, and (R,R)-2 donors originates not only from the chirality, but also the introduced intermolecular hydrogen bonds involving the hydroxymethyl groups, perchlorate anion, and the included solvent H(2)O.
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spelling pubmed-46609182015-12-09 Synthesis of racemic and chiral BEDT-TTF derivatives possessing hydroxy groups and their achiral and chiral charge transfer complexes Krivickas, Sara Jane Hashimoto, Chiho Yoshida, Junya Ueda, Akira Takahashi, Kazuyuki Wallis, John D Mori, Hatsumi Beilstein J Org Chem Full Research Paper Chiral molecular crystals built up by chiral molecules without inversion centers have attracted much interest owing to their versatile functionalities related to optical, magnetic, and electrical properties. However, there is a difficulty in chiral crystal growth due to the lack of symmetry. Therefore, we made the molecular design to introduce intermolecular hydrogen bonds in chiral crystals. Racemic and enantiopure bis(ethylenedithio)tetrathiafulvalene (BEDT-TTF) derivatives possessing hydroxymethyl groups as the source of hydrogen bonds were designed. The novel racemic trans-vic-(hydroxymethyl)(methyl)-BEDT-TTF 1, and racemic and enantiopure trans-vic-bis(hydroxymethyl)-BEDT-TTF 2 were synthesized. Moreover, the preparations, crystal structure analyses, and electrical resistivity measurements of the novel achiral charge transfer salt θ(21)-[(S,S)-2](3)[(R,R)-2](3)(ClO(4))(2) and the chiral salt α’-[(R,R)-2]ClO(4)(H(2)O) were carried out. In the former θ(21)-[(S,S)-2](3)[(R,R)-2](3)(ClO(4))(2), there are two sets of three crystallographically independent donor molecules [(S,S)-2](2)[(R,R)-2] in a unit cell, where the two sets are related by an inversion center. The latter α’-[(R,R)-2]ClO(4)(H(2)O) is the chiral salt with included solvent H(2)O, which is not isostructural with the reported chiral salt α’-[(S,S)-2]ClO(4) without H(2)O, but has a similar donor arrangement. According to the molecular design by introduction of hydroxy groups and a ClO(4)(−) anion, many intermediate-strength intermolecular hydrogen bonds (2.6–3.0 Å) were observed in these crystals between electron donor molecules, anions, and included H(2)O solvent, which improve the crystallinity and facilitate the extraction of physical properties. Both salts are semiconductors with relatively low resistivities at room temperature and activation energies of 1.2 ohm cm with E(a) = 86 meV for θ(21)-[(S,S)-2](3)[(R,R)-2](3)(ClO(4))(2) and 0.6 ohm cm with E(a) = 140 meV for α'-[(R,R)-2](2)ClO(4)(H(2)O), respectively. The variety of donor arrangements, θ(21) and two kinds of α’-types, and their electrical conductivities of charge transfer complexes based upon the racemic and enantiopure (S,S)-2, and (R,R)-2 donors originates not only from the chirality, but also the introduced intermolecular hydrogen bonds involving the hydroxymethyl groups, perchlorate anion, and the included solvent H(2)O. Beilstein-Institut 2015-09-08 /pmc/articles/PMC4660918/ /pubmed/26664576 http://dx.doi.org/10.3762/bjoc.11.172 Text en Copyright © 2015, Krivickas et al. https://creativecommons.org/licenses/by/2.0https://www.beilstein-journals.org/bjoc/termsThis is an Open Access article under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. The license is subject to the Beilstein Journal of Organic Chemistry terms and conditions: (https://www.beilstein-journals.org/bjoc/terms)
spellingShingle Full Research Paper
Krivickas, Sara Jane
Hashimoto, Chiho
Yoshida, Junya
Ueda, Akira
Takahashi, Kazuyuki
Wallis, John D
Mori, Hatsumi
Synthesis of racemic and chiral BEDT-TTF derivatives possessing hydroxy groups and their achiral and chiral charge transfer complexes
title Synthesis of racemic and chiral BEDT-TTF derivatives possessing hydroxy groups and their achiral and chiral charge transfer complexes
title_full Synthesis of racemic and chiral BEDT-TTF derivatives possessing hydroxy groups and their achiral and chiral charge transfer complexes
title_fullStr Synthesis of racemic and chiral BEDT-TTF derivatives possessing hydroxy groups and their achiral and chiral charge transfer complexes
title_full_unstemmed Synthesis of racemic and chiral BEDT-TTF derivatives possessing hydroxy groups and their achiral and chiral charge transfer complexes
title_short Synthesis of racemic and chiral BEDT-TTF derivatives possessing hydroxy groups and their achiral and chiral charge transfer complexes
title_sort synthesis of racemic and chiral bedt-ttf derivatives possessing hydroxy groups and their achiral and chiral charge transfer complexes
topic Full Research Paper
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4660918/
https://www.ncbi.nlm.nih.gov/pubmed/26664576
http://dx.doi.org/10.3762/bjoc.11.172
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