3.8 Article

Phase formation under conditions of self-organization of particle growth restrictions in the reaction system

期刊

NANOSYSTEMS-PHYSICS CHEMISTRY MATHEMATICS
卷 13, 期 2, 页码 165-181

出版社

ST PETERSBURG NATL RESEARCH UNIV INFORMATION TECHNOLOGIES, MECH & OPTICS
DOI: 10.17586/2220-8054-2022-13-2-165-181

关键词

nanocrystals; nanoparticles; self-organization; nanoreactors; particle growth restrictions

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A systematic analysis of literature data on the influence of synthesis methods and conditions on the possibility of self-organization of particle growth restrictions during solid phase chemical reactions has been conducted. The prospects of using such methods to obtain nano-crystalline phases are demonstrated. It is shown that the risk of forming precursor phases instead of target products is a disadvantage of these synthesis methods. To avoid such an outcome, several synthesis methods are proposed. Based on the analysis of literature data, examples of transforming precursor nanoparticles into nanocrystals of target phases are classified and presented. A scheme is designed to achieve optimal combination of synthesis methods for obtaining nano-crystalline particles with desired composition, structure, size, and shape.
A systematic analysis of literature data concerning the influence of methods and conditions of synthesis on the possibility of self-organization of particle growth restrictions during chemical reactions of solid phase has been conducted. The prospects of using such methods to obtain nano-crystalline phases are shown. It is demonstrated that a disadvantage of such methods of synthesis is the risk of forming precursor phases instead of target products. To avoid such an outcome, several methods of synthesis are proposed. Based on the analysis of literature data, examples of the transformation of precursor nanoparticles into nanocrystals of target phases are classified and presented. A scheme that allows optimal combination of synthesis methods to obtain nano-crystalline particles of a given composition, structure, size, and shape is designed.

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