通过机械化学法形成共晶：从无溶剂和液相助磨到聚合物助磨。

Cocrystal Formation through Mechanochemistry: from Neat and Liquid-Assisted Grinding to Polymer-Assisted Grinding.

机构信息

Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge, CB2 1EW (UK).

Department of Chemical and Pharmaceutical Sciences, University of Trieste, P.le Europa 1, 34127, Trieste (Italy).

出版信息

Angew Chem Int Ed Engl. 2015 Jun 15;54(25):7371-5. doi: 10.1002/anie.201501638. Epub 2015 May 4.

DOI:10.1002/anie.201501638

PMID:25939405

Abstract

Mechanochemistry is an effective method for the preparation of multicomponent crystal systems. In the present work, we propose an alternative to the established liquid-assisted grinding (LAG) approach. Polymer-assisted grinding (POLAG) is demonstrated to provide a new class of catalysts for improving reaction rate and increasing product diversity during mechanochemical cocrystallization reactions. We demonstrate that POLAG provides advantages comparable to the conventional liquid-assisted process, whilst eliminating the risk of unwanted solvate formation as well as enabling control of resulting particle size. It represents a new approach for the development of functional materials through mechanochemistry, and possibly opens new routes toward the understanding of the mechanisms and pathways of mechanochemical cocrystal formation.

摘要

机械化学是一种制备多组分晶体系统的有效方法。在本工作中，我们提出了一种替代传统的液辅助研磨（LAG）方法的方法。聚合物辅助研磨（POLAG）被证明是一类新型的催化剂，可以提高机械化学共结晶反应的反应速率和增加产物多样性。我们证明了 POLAG 提供了与传统液体辅助过程相当的优势，同时消除了不想要的溶剂化物形成的风险，并且能够控制所得颗粒大小。它代表了通过机械化学开发功能材料的一种新方法，并且可能为理解机械化学共晶形成的机制和途径开辟新的途径。

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通过机械化学法形成共晶：从无溶剂和液相助磨到聚合物助磨。

Cocrystal Formation through Mechanochemistry: from Neat and Liquid-Assisted Grinding to Polymer-Assisted Grinding.

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