Charge separation in the non-covalent adducts of aromatic amines and the rhenium tricarbonyl complex bearing a cyclodextrin unit on a ligand

The synthesis and full characterization of two tetrathiafulvalene-appended azine ligands, namely 2-([2,2’-bi(1,3-dithiolylidene)]-4-yl)-6-((2,4-dinitrophenyl)hydrazono)methyl)pyridine (L1) and 5-([2,2’-bi(1,3-dithiolylidene)]-4-yl)-2-((2,4-dinitrophenyl)hydrazono)methyl)pyridine (L2) are described. The crystal structure of ligand L1 indicates that the ligand is completely planar with the presence of a strong intramolecular N3–H3···O1 hydrogen bonding. Titration experiments with inorganic anions showed that both ligands are suitable candidates for the sensing of fluoride anions. Ligand L2 was reacted with a Re(I) cation to yield the corresponding rhenium tricarbonyl complex 3. In the crystal structure of the newly prepared electroactive rhenium complex the TTF is neutral and the rhenium cation is hexacoordinated. The electrochemical behavior of the three compounds indicates that they are promising for the construction of crystalline radical cation salts.

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Heterocyclic Aromatic Amines Heterocomplexation with Biologically Active Aromatic Compounds and Its Possible Role in Chemoprevention

ISRN Biophysics ◽

10.1155/2013/740821 ◽

2013 ◽

Vol 2013 ◽

pp. 1-11 ◽

Cited By ~ 7

Author(s):

Anna Woziwodzka ◽

Grzegorz Gołuński ◽

Jacek Piosik

Keyword(s):

Aromatic Compounds ◽

Aromatic Amines ◽

Molecular Complexes ◽

Biologically Active ◽

Heterocyclic Aromatic Amines ◽

Cytochrome P450 Enzymes ◽

Genotoxic Effects ◽

Human Diet ◽

Food Borne ◽

Covalent Adducts

Food-borne heterocyclic aromatic amines (HCAs) are known mutagens and carcinogens present especially in Western population diet, which contains large amount of meat and its products. HCAs are capable of interacting with DNA directly through the formation of covalent adducts, however this process requires biological activation in liver, mainly by cytochrome P450 enzymes. This process may produce mutations and in consequence may contribute to the development of cancer. However, there are many studies showing that several biologically active aromatic compounds (BACs) may protect against genotoxic effects of HCAs. Direct interactions and noncovalent heterocomplexes formation may be one of the most important mechanisms of such protection. This work describes several BACs present in human diet, which are capable of molecular complexes formation with HCAs and protect cells as well as whole organisms against HCAs action.

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Aptamer-functionalized lipid-core micelles loaded with rhenium tricarbonyl complex

Polyhedron ◽

10.1016/j.poly.2020.114963 ◽

2021 ◽

Vol 195 ◽

pp. 114963

Author(s):

Andrea C. Ortiz ◽

Islavo Casas ◽

Pablo Mella ◽

Omar Naranjo ◽

Nancy Pizarro ◽

...

Keyword(s):

Tricarbonyl Complex ◽

Lipid Core ◽

Rhenium Tricarbonyl

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Flexible to rigid: IR spectroscopic investigation of a rhenium-tricarbonyl-complex at a buried interface

Physical Chemistry Chemical Physics ◽

10.1039/d0cp06546c ◽

2021 ◽

Vol 23 (7) ◽

pp. 4311-4316

Author(s):

Kerstin T. Oppelt ◽

Laurent Sevéry ◽

Mirjam Utters ◽

S. David Tilley ◽

Peter Hamm

Keyword(s):

Infrared Spectroscopy ◽

Spectroscopic Investigation ◽

Tricarbonyl Complex ◽

Time Resolved ◽

Time Resolved Infrared Spectroscopy ◽

Ir Spectroscopic ◽

Rhenium Tricarbonyl

Immobilized rhenium tricarbonyl complexes were embedded in ALD deposited ZrO2, and investigated by (time resolved) infrared spectroscopy. The initially solvent exposed molecules react on the change of their environment.

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Application of the organometallic technetium and rhenium tricarbonyl complex on neuropeptide labelling

Journal of Labelled Compounds and Radiopharmaceuticals ◽

10.1002/jlcr.25804401197 ◽

2001 ◽

Vol 44 (S1) ◽

pp. S556-S558 ◽

Cited By ~ 4

Author(s):

P. Bläuenstein ◽

E. García Garayoa ◽

A. Blanc ◽

R. La Bella ◽

P. A. Schubiger ◽

...

Keyword(s):

Tricarbonyl Complex ◽

Rhenium Tricarbonyl

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Substitution reactivity and structural variability induced by tryptamine on the biomimetic rhenium tricarbonyl complex

RSC Advances ◽

10.1039/d1ra03750a ◽

2021 ◽

Vol 11 (39) ◽

pp. 24443-24455

Author(s):

Frederick J. F. Jacobs ◽

Gertruida J. S. Venter ◽

Eleanor Fourie ◽

Robin E. Kroon ◽

Alice Brink

Keyword(s):

Bidentate Ligand ◽

Tricarbonyl Complex ◽

Structural Variability ◽

Rhenium Tricarbonyl

The biomimetic tryptamine rhenium tricarbonyl complex shows rapid substitution reactivity on the 6th position as well as cytotoxicity and photoluminescence capability induced by the salicylidene bidentate ligand.

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