Research output: Contribution to journal › Article › peer-review
Azo-benzoic acid derivatives directed dinuclear and tetranuclear association of trimethyltin(IV) complex components and their biological activities. / Debnath, Pratima; Debnath, Paresh; Roy, Subhadip; Devi, Maisnam Babita; Mona Devi, Mutum; Sarangthem, Kananbala; Sureshkumar Singh, S.; Roy, Manojit; Novikov, Alexander S.; Misra, Tarun Kumar.
In: Inorganica Chimica Acta, Vol. 559, 121805, 01.01.2024.Research output: Contribution to journal › Article › peer-review
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TY - JOUR
T1 - Azo-benzoic acid derivatives directed dinuclear and tetranuclear association of trimethyltin(IV) complex components and their biological activities
AU - Debnath, Pratima
AU - Debnath, Paresh
AU - Roy, Subhadip
AU - Devi, Maisnam Babita
AU - Mona Devi, Mutum
AU - Sarangthem, Kananbala
AU - Sureshkumar Singh, S.
AU - Roy, Manojit
AU - Novikov, Alexander S.
AU - Misra, Tarun Kumar
PY - 2024/1/1
Y1 - 2024/1/1
N2 - Two new trimethyltin(IV) complexes including dinuclear-[(H2O)Me3Sn-µ-OH-SnMe3(HL1)] (1) and tetranuclear-[(Me3Sn)2(HOMe)H2L2]2 (2) were synthesized by the reaction of 2-[2-{8-oxoquinolin-5(8H)-ylidene}hydrazinyl]benzoic acid (H2L1) and 2-[{4-hydroxy-3-(4-hydroxy-3-carboxyphenyliminomethyl)phenylazo}]benzoic acid (H4L2), respectively with trimethyltin(IV) chloride. The complexes were characterized using sophisticated spectroscopic tools and single crystal X-ray crystallographic analysis. The structure of the complex 1 is dinuclear and is made up of two Me3Sn(IV) centres connected by a hydroxyl (µ-OH) group. The carboxylate group from the H2L1 ligand and a water molecule are each responsible for coordinating the terminal edges of the two distinct tin centres. In the structure of complex 2, which is tetranuclear in nature, a cyclic loop containing two symmetry-related Me3Sn(IV) units is confined by the alternate carboxylate-O and phenoxide-O atoms from the two H4L2 ligands. The remaining carboxylate groups from H4L2 ligands are attached to the other two terminal symmetry-related Me3Sn(IV) units, which are further bound by the methanol-O atoms, thereby preventing extended molecular structure. According to Hirshfeld surface and DFT topological analysis, the weak noncovalent interactions involving H-bonding are substantially responsible for the molecular packing. According to the 119Sn-NMR spectra, the hydroxo-bridge bonds of 1 in the solid state break to form two dissimilar tetrahedral environment about two Sn(IV) units in solution. Whereas, in complex 2, the phenolate-O-Sn bonds in the solid state break to form a trigonal bipyramidal and a tetrahedral geometries around Sn(IV) linked by the H4L2 ligand in the solution, as if the ligand H4L2 holds Me3Sn(IV) and Me3Sn(IV)(OMe) units by its two carboxylate hands. The study of antidiabetic activities of the synthesized compounds against α-glucosidase and α-amylase reveal that the ligand H4L2 and complex 1 have efficient α-amylase inhibitory characteristics. In addition, the results of antioxidant activities indicate that complex 2 possesses promising activity and thus could be employed as an excellent antioxidant.
AB - Two new trimethyltin(IV) complexes including dinuclear-[(H2O)Me3Sn-µ-OH-SnMe3(HL1)] (1) and tetranuclear-[(Me3Sn)2(HOMe)H2L2]2 (2) were synthesized by the reaction of 2-[2-{8-oxoquinolin-5(8H)-ylidene}hydrazinyl]benzoic acid (H2L1) and 2-[{4-hydroxy-3-(4-hydroxy-3-carboxyphenyliminomethyl)phenylazo}]benzoic acid (H4L2), respectively with trimethyltin(IV) chloride. The complexes were characterized using sophisticated spectroscopic tools and single crystal X-ray crystallographic analysis. The structure of the complex 1 is dinuclear and is made up of two Me3Sn(IV) centres connected by a hydroxyl (µ-OH) group. The carboxylate group from the H2L1 ligand and a water molecule are each responsible for coordinating the terminal edges of the two distinct tin centres. In the structure of complex 2, which is tetranuclear in nature, a cyclic loop containing two symmetry-related Me3Sn(IV) units is confined by the alternate carboxylate-O and phenoxide-O atoms from the two H4L2 ligands. The remaining carboxylate groups from H4L2 ligands are attached to the other two terminal symmetry-related Me3Sn(IV) units, which are further bound by the methanol-O atoms, thereby preventing extended molecular structure. According to Hirshfeld surface and DFT topological analysis, the weak noncovalent interactions involving H-bonding are substantially responsible for the molecular packing. According to the 119Sn-NMR spectra, the hydroxo-bridge bonds of 1 in the solid state break to form two dissimilar tetrahedral environment about two Sn(IV) units in solution. Whereas, in complex 2, the phenolate-O-Sn bonds in the solid state break to form a trigonal bipyramidal and a tetrahedral geometries around Sn(IV) linked by the H4L2 ligand in the solution, as if the ligand H4L2 holds Me3Sn(IV) and Me3Sn(IV)(OMe) units by its two carboxylate hands. The study of antidiabetic activities of the synthesized compounds against α-glucosidase and α-amylase reveal that the ligand H4L2 and complex 1 have efficient α-amylase inhibitory characteristics. In addition, the results of antioxidant activities indicate that complex 2 possesses promising activity and thus could be employed as an excellent antioxidant.
KW - Tri-organotin(IV) complexes
KW - -OH bridge
KW - Cyclic dinuclear structure
KW - Antidiabetic activities
KW - Antioxidant activities
U2 - 10.1016/j.ica.2023.121805
DO - 10.1016/j.ica.2023.121805
M3 - статья
VL - 559
JO - Inorganica Chimica Acta
JF - Inorganica Chimica Acta
SN - 0020-1693
M1 - 121805
ER -
ID: 111516010