Mechanochemical recrystallization: Forgotten basics and new possibilities

Q4 Materials Science Chimica Techno Acta Pub Date : 2023-06-02 DOI:10.15826/chimtech.2023.10.2.13

F. Urakaev, N. Khan, A. Niyazbayeva, Dinar N. Zharlykasimova, M. Burkitbayev

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Abstract

The task of this article is to update, develop and introduce into scientific practice the method of "mechanochemical recrystallization" in solid-phase systems with small additives of the liquid phase of the solvent and solid-phase precursors to stabilize the formed nanoparticles. The essence of this method is shown using the example of mechanical activation of the S–AgNO3–NH4X system, where X = Cl, Br, I, with the addition of dimethyl sulfoxide (DMSO), and the resulting mechanochemical synthesis of sulfur-containing nanocomposites S/AgX with the controlled content of sulfur nanoparticles (nanosulfur). The predetermined content of nanosulfur in nanocomposites is ensured by a continuous process of dissolution-crystallization (recrystallization) of starting sulfur in the DMSO medium in a mechanochemical reactor. The proposed technical solution made it possible to obtain S/AgX nanocomposites by a single mechanical treatment of powder precursors – AgNO3, NH4Х, NH4NO3 (diluent), commercial sulfur and DMSO in planetary ball mills with various milling tools. The method also includes washing the water-soluble components of mechanosynthesis.

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机械化学再结晶:被遗忘的基础和新的可能性

本文的任务是更新、发展和引入固相体系中的“机械化学再结晶”方法，在溶剂的液相和固相前驱体中添加少量添加剂来稳定形成的纳米颗粒。通过机械活化S - agno3 - nh4x体系(其中X = Cl, Br, I)，加入二甲亚砜(DMSO)，并在控制硫纳米颗粒(纳米硫)含量的情况下，机械化学合成含硫纳米复合材料S/AgX的例子，表明了该方法的本质。通过机械化学反应器中起始硫在DMSO介质中的连续溶解结晶(再结晶)过程，确保纳米复合材料中纳米硫的预定含量。提出的技术解决方案可以通过在行星球磨机中使用各种研磨工具对粉末前体- AgNO3, NH4Х， NH4NO3(稀释剂)，商业硫和DMSO进行单一机械处理来获得S/AgX纳米复合材料。该方法还包括清洗机械合成的水溶性组分。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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