Directed Synthesis of Humic and Fulvic Derivatives with Enhanced Antioxidant Properties

Redox moieties, which are present in the molecular backbone of humic substances (HS), govern their antioxidant properties. We hypothesized that a directed modification of the humic backbone via incorporation of redox moieties with known redox properties might provide an efficient tool for tuning up...

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Published inAgronomy (Basel) Vol. 11; no. 10; p. 2047
Main Authors Volikov, Alexander, Mareev, Nikita, Konstantinov, Andrey, Molodykh, Alexandra, Melnikova, Sofia, Bazhanova, Alina, Gasanov, Mikhail, Nikolaev, Evgeny, Zherebker, Alexander, Volkov, Dmitry, Zykova, Maria, Perminova, Irina
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.10.2021
Subjects
Antioxidants
Backbone
Carbon
Chemical modification
Copolymerization
Fenton reagent
Fulvic acids
Humic acids
Humic substances
hydroquinones
Labeling
Mass spectrometry
Mass spectroscopy
modification
naphthoquinones
NMR
Nuclear magnetic resonance
Oxidation
Peat
Phenols
Potassium
Reaction mechanisms
Reaction products
Reagents
Redox properties
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Germany
Russia
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Summary:Redox moieties, which are present in the molecular backbone of humic substances (HS), govern their antioxidant properties. We hypothesized that a directed modification of the humic backbone via incorporation of redox moieties with known redox properties might provide an efficient tool for tuning up antioxidant properties of HS. In this work, hydroquinonoid and hydronaphthoquinonoid centres were used, which possess very different redox characteristics. They were incorporated into the structure of coal (leonardite) humic acids CHA) and peat fulvic acids (PFA). For this goal, an oxidative copolymerization of phenols was used. The latter was induced via oxidation of hydroquinones and hydroxynapjtaquinones with a use of Fenton’s reagent. The structure of the obtained products was characterized using NMR and FTIR spectroscopy. H/D labelling coupled to FT ICR mass spectrometry analysis was applied for identification of the reaction products as a tool for surmising on reaction mechanism. It was shown that covalent -C-C- bond were formed between the incorporated redox centers and aromatic core of HS. The parent humic acids and their naphthoquinonoid derivatives have demonstrated high accepting capacity. At the same time, fulvic acids and their hydroquinonoid derivatives have possessed both high donor and high antioxidant capacities. The kinetic studies have demonstrated that both humic acids and their derivatives showed much slower kinetics of antioxidant reactions as compared to fulvic acids. The obtained results show, firstly, substantial difference in redox and antioxidant properties of the humic and fulvic acids, and, secondly, they can serve as an experimental evidence that directed chemical modification of humic substances can be used to tune and control antioxidant properties of natural HS.
ISSN:2073-4395
2073-4395
DOI:10.3390/agronomy11102047