Catecholase Activity of a Mn(III) Complex: An Approach through<sup>1</sup>H‐NMR spectroscopy

Tripathy, Rashmi Rekha; Jana, Samaresh; Maji, Sanjoy Kumar; Sarkar, Sohini

doi:10.1002/slct.202203205

ChemistrySelect

2022

DOI: 10.1002/slct.202203205

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Catecholase Activity of a Mn(III) Complex: An Approach through¹H‐NMR spectroscopy

Rashmi Rekha Tripathy

Samaresh Jana

Sanjoy Kumar Maji

et al.

Abstract: A mononuclear Mn(III) complex, [MnIIIL(Cl)], has been synthesized using a newly explored Schiff base ligand, H2L. Both of them have been characterized by single crystal X‐ray crystallography, UV‐Vis spectroscopy and IR spectroscopy. Interestingly the complex behaved as a model of catechol oxidase toward oxidation of 3,5‐Di‐tert‐butyl catechol to the corresponding quinone. The progress of the oxidation process has been monitored with the help of 1H‐NMR spectroscopy after stirring the reaction mixture in methano… Show more

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Study on the Catecholase Activity in the Presence of a Mn(III)-based Catalyst and Base

Tripathy,

Sarkar,

Jana

2025

COS

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Background:: This work describes the oxidation of a catechol moiety to the corresponding quinone by using Mn(III)-based catalysts in the presence of an organic base. Two newly reported Mn(III)-Schiff base complexes were utilized for the oxidation of three different substrates, namely, 3,5-di tert-butyl catechol, 1,4-dihydroxy benzene and pyrocatechol, aerobically. Objective:: We intended to understand the role of a base for the above-mentioned oxidation process. Also, we were interested to monitor the progress of reaction using 1H-NMR spectroscopy and to get more insight into the mechanistic path of the reaction. Methods:: The oxidation processes were studied in open air in acetonitrile or methanol solvent. The reaction mixture containing concerned substrate, catalyst, and base were stirred in open air and 1H-NMR spectrum was recorded using the crude reaction mixture in different time intervals. Results:: Interestingly, introduction of a base in the reaction mixture, enhanced the rate to a great extent for the first two substrates. This observation may provide an idea toward the rate determining step of the process. Notably, the third substrate, pyrocatechol, could not be oxidized by any of the two cata-lysts even with a base which might emphasize monodentate binding mode of the substrate. Each of the oxidation was monitored with the help of time dependent 1H-NMR spectroscopy. Conclusion:: A mechanistic pathway has been proposed. The spectra obtained in different cases help to compare the efficiency of the catalysts with or without base. In the absence of the catalysts, triethyl-amine alone cannot complete the conversion in the stipulated time, which may establish the effective-ness of the catalysts via the base-assisted mechanism.

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Study on the Catecholase Activity in the Presence of a Mn(III)-based Catalyst and Base

Tripathy,

Sarkar,

Jana

2025

COS

View full text Add to dashboard Cite

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Viewpoints Concerning Crystal Structure from Recent Reports on Schiff Base Compounds and Their Metal Complexes

Akitsu,

Nakane,

Miroslaw

2024

Symmetry

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Schiff bases are organic compounds that are often used as ligands in metal complexes. In addition to the C=N double bond, which is characteristic of Schiff bases, intermolecular hydrogen bonds are frequently observed in both the twisting of planar substituents in organic compounds and the geometric structure of the coordination environment in metal complexes. The results of the crystal structure analyses are stored in databases, which can be used to assess three-dimensional structures. To examine the important structural aspects for novel molecular and material designs, this review examines the important discussion of crystal structure “features” from various viewpoints based on papers on Schiff bases and Schiff base metal complexes from recent years.

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Catecholase Activity of a Mn(III) Complex: An Approach through¹H‐NMR spectroscopy

Cited by 2 publications

References 48 publications

Study on the Catecholase Activity in the Presence of a Mn(III)-based Catalyst and Base

Study on the Catecholase Activity in the Presence of a Mn(III)-based Catalyst and Base

Viewpoints Concerning Crystal Structure from Recent Reports on Schiff Base Compounds and Their Metal Complexes

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Catecholase Activity of a Mn(III) Complex: An Approach through1H‐NMR spectroscopy

Cited by 2 publications

References 48 publications

Study on the Catecholase Activity in the Presence of a Mn(III)-based Catalyst and Base

Study on the Catecholase Activity in the Presence of a Mn(III)-based Catalyst and Base

Viewpoints Concerning Crystal Structure from Recent Reports on Schiff Base Compounds and Their Metal Complexes

Contact Info

Product

Resources

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Catecholase Activity of a Mn(III) Complex: An Approach through¹H‐NMR spectroscopy