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Tatyana I. Shabatina1, 2, Anindya Bose3, Olga I. Vernaya1, 2, Yana A. Gromova1, Mikhail Ya. Melnikov1
Green synthesis of metal
oxide nanoparticles
Abstract
Abstract. Active
development of nanotechnology and growing demand for nanomaterials, including
metal oxide nanoparticles, makes the problem of developing economical and
environmentally friendly synthesis methods urgent. Green chemistry and green
synthesis methods based on its principles are an effective solution to this
problem. These methods can be used to obtain metal oxide nanoparticles with
different compositions, structures, sizes with minimal harm to the environment.
The variety of green synthesis methods and reagents makes it possible to choose
the most cost-effective options for different regions. The review considers
modern green chemistry methods used to obtain and stabilize metal oxide
nanoparticles: copper, zinc, zirconium, iron, titanium. Their advantages,
disadvantages, and possible directions for further development are discussed.
In addition, the review describes the properties and practical applications of
metal oxide nanoparticles obtained by means of green chemistry methods.
Key words: metal oxide
nanoparticles, synthesis, green chemistry, green synthesis, applications
Copyright (C) Chemistry Dept., Moscow State University, 2002
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