Catalytic Properties of Polyampholytes, Polyampholyte-Metal Complexes, Polyampholyte-Metal Nanoparticles and Polyampholyte-Enzyme Conjugates: a Mini-Review
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Karagandy University of the name of acad. E.A. Buketov
Abstract
This mini-review briefly discusses the catalytic properties of polyampholytes, polyampholyte-metal complexes,
polyampholyte-metal nanoparticles and polyampholyte-catalase conjugates. Polyampholyte-based catalysts
can mimic enzyme functions, facilitating reactions like hydrolysis, decomposition, hydrogenation, and
oxidation of various substrates. Special focus is given to amphoteric hydrogels and cryogels that encapsulate
metal nanoparticles or enzymes. These materials have demonstrated effectiveness in the hydrogenation of nitroaromatic
compounds, oxidation of disulfide and aliphatic (or aromatic) alcohols under mild conditions,
both in batch and flow-through reactors. Kinetic parameters, turnover numbers (TON), turnover frequencies
(TOF), and activation energies are presented for a series of specific catalytic processes. Notably, flowthrough
reactors exhibit significantly higher catalytic efficiency compared to batch reactors and can be used
continuously for extended periods. Additionally, the review explores the potential of light-driven hydrogen
and oxygen evolution reactions from water, facilitated by metal nanoparticles within amphoteric hydrogels in
the presence of photosensitizers.
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Kudaibergenov S.E. Catalytic Properties of Polyampholytes, Polyampholyte-Metal Complexes, Polyampholyte-Metal Nanoparticles and Polyampholyte-Enzyme Conjugates: a Mini-Review/S.E. Kudaibergenov//Eurasian Journal of Chemistry. - 2024. - Vol. 29 - №3(115). – pp.42-54.