Hydrogen-Bonded Charge-Transfer Complexes of TTF Containing a Uracil Moiety:  Crystal Structures and Electronic Properties of the Hydrogen Cyananilate and TCNQ Complexes

Maki, Sunao; Ohmoto, Makoto; Kitagawa, Hiroshi; Okubo, Takashi; Mitani, Tadaoki; Nakasuji, Kazuhiro

doi:10.1021/ol020081z

Cited by 56 publications

(12 citation statements)

References 38 publications

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“…Two tetrathiafulvalenes bearing an uracil moiety have been described (Chart ), either fused on the TTF core as in o -Me 2 TTF[C(O)NHC(O)NH] or linked to the TTF core as in (1- n -butyluracil-5-yl)-TTF . In the former, of the two NH available for hydrogen bonding, one engages into the dimeric eight-membered cyclic motif while the other interacts strongly with a DMF solvate molecule, as shown in 2.33 .…”

Section: 21 Neutral Amide and Thioamide Tetrathiafulvalenesmentioning

confidence: 99%

Activation of Hydrogen- and Halogen-Bonding Interactions in Tetrathiafulvalene-Based Crystalline Molecular Conductors

2004

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Section: 21 Neutral Amide and Thioamide Tetrathiafulvalenesmentioning

confidence: 99%

Activation of Hydrogen- and Halogen-Bonding Interactions in Tetrathiafulvalene-Based Crystalline Molecular Conductors

2004

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“…In addition to such a structural effect of the H-bond, we recently demonstrated new roles of the H-bonding interaction: control of electron-donating and -accepting abilities of donor/acceptor molecules and their molecular ratio in the CT complexes of the dibenzo-TTF derivative with amino groups 4 and the TTF derivative with imidazole systems . As part of our ongoing studies, we investigated TTF π-systems with nucleobases such as uracil and N 1 -butyluracil, TU and T n bU, and established the usefulness of the introduction of nucleobases into the TTF π-system to construct highly ordered multidimensional molecular systems based on complementary double H-bonds . Notably, achievement of high electrical conductivities in the tetracyanoquinodimethane (TCNQ) CT complexes of TU and T n bU showed an interesting strategy for the construction of H-bonded CT complexes .…”

Section: Introductionmentioning

confidence: 99%

Two-Dimensional Networks of Ethylenedithiotetrathiafulvalene Derivatives with the Hydrogen-Bonded Functionality of Uracil, and Channel Structure of Its Tetracyanoquinodimethane Complex

et al. 2006

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Ethylenedithiotetrathiafulvalene (EDT-TTF) derivatives with N1-butyluracil or N1-phenyluracil moiety were designed and synthesized as new hydrogen-bonded electron-donor molecules with the aim of introducing multiple S...S interactions into the hydrogen-bonded structures composed of the TTF-nucleobase systems. In the crystals of the EDT-TTF derivatives, two-dimensional sheet and layer structures were formed through pi...pi, multiple S...S interactions, and complementary double hydrogen bonds. In the tetracyanoquinodimethane (TCNQ) charge-transfer complex of the EDT-TTF-N1-butyluracil dyad with a segregated column, a layer structure of the electron-donor molecules was constructed through the noncovalent interactions. The n-butyl group of the uracil moiety served to separate the space between the donor layers, resulting in construction of a channel structure. Disordered TCNQ molecules were located in the microporous space of the channel. The TCNQ complex exhibited high electric conductivity (sigmart= 2.1 S cm(-1)) in a single crystal.

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“…Participation of resorcin[4]arene and gatifloxacin individually in charge‐transfer process with electron‐deficient species is known . However, the present case represents a less known phenomenon, which involves an interplay between hydrogen bond and charge‐transfer interaction . Interestingly, there is no evidence of inclusion of any part of gatifloxacin in the macrocycle cavity, as was evident from the unaffected aromatic protons of RsC1.…”

Section: Discussionmentioning

confidence: 66%

Multifaceted Supramolecular Interactions from C‐Methylresorcin[4]arene Lead to an Enhancement in In Vitro Antibacterial Activity of Gatifloxacin

Dawn

Chandra

Ade-Browne

et al. 2017

Chemistry A European J

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Mimicking the antibacterial activity of polyphenols in synthetic systems is an attractive approach for the development of new active pharmaceutical ingredients. Resorcinarenes represent a class of polyphenols, which have been exploited for decades for their attractive chemical scaffold suitable for forming host-guest complexes with hydrophobic guest molecules. However, the polyphenolic character of resorcinarenes, which could be a potential asset to the pharmaceutical industry, have been least exploited. The present work represents an unprecedented interplay of antimicrobial activity of resorcinarene together with its ability to interact chemically with an antibacterial drug gatifloxacin, improving the overall antibacterial activity. The chemistry and the clinical activities involved in this study were investigated simultaneously by spectroscopic techniques, as well as by in vitro measurement of antibacterial activity toward two human bacterial pathogens, a Gram-positive pathogen Staphylococcus aureus and a Gram-negative lung pathogen Legionella pneumophila. The initial positive result obtained from this study could revolutionize the use of synthetically modifiable resorcinarenes and their analogues in fine tuning the clinical behavior of drugs.

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Hydrogen-Bonded Charge-Transfer Complexes of TTF Containing a Uracil Moiety: Crystal Structures and Electronic Properties of the Hydrogen Cyananilate and TCNQ Complexes

Cited by 56 publications

References 38 publications

Activation of Hydrogen- and Halogen-Bonding Interactions in Tetrathiafulvalene-Based Crystalline Molecular Conductors

Activation of Hydrogen- and Halogen-Bonding Interactions in Tetrathiafulvalene-Based Crystalline Molecular Conductors

Two-Dimensional Networks of Ethylenedithiotetrathiafulvalene Derivatives with the Hydrogen-Bonded Functionality of Uracil, and Channel Structure of Its Tetracyanoquinodimethane Complex

Multifaceted Supramolecular Interactions from C‐Methylresorcin[4]arene Lead to an Enhancement in In Vitro Antibacterial Activity of Gatifloxacin

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