Feedback Kinetics in Mechanochemistry: The Importance of Cohesive States

Although mechanochemical synthesis is becoming more widely applied and even commercialised, greater basic understanding is needed if the field is to progress on less of a trial‐and‐error basis. We report that a mechanochemical reaction in a ball mill exhibits unusual sigmoidal feedback kinetics that...

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Veröffentlicht in:	Angewandte Chemie International Edition 2017-11, Vol.56 (48), p.15252-15256
Hauptverfasser:	Hutchings, Benjamin P., Crawford, Deborah E., Gao, Lei, Hu, Peijun, James, Stuart L.
Format:	Artikel
Sprache:	eng
Schlagworte:	Commercialization Feedback feedback cycles Kinetics Mechanical properties mechanochemistry Powder Reaction kinetics Rheological properties Rubber solid-state reactions sustainable chemistry
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creator	Hutchings, Benjamin P. Crawford, Deborah E. Gao, Lei Hu, Peijun James, Stuart L.
description	Although mechanochemical synthesis is becoming more widely applied and even commercialised, greater basic understanding is needed if the field is to progress on less of a trial‐and‐error basis. We report that a mechanochemical reaction in a ball mill exhibits unusual sigmoidal feedback kinetics that differ dramatically from the simple first‐order kinetics for the same reaction in solution. An induction period is followed by a rapid increase in reaction rate before the rate decreases again as the reaction goes to completion. The origin of these unusual kinetics is found to be a feedback cycle involving both chemical and mechanical factors. During the reaction the physical form of the reaction mixture changes from a powder to a cohesive rubber‐like state, and this results in the observed reaction rate increase. The study reveals that non‐obvious and dynamic rheological changes in the reaction mixture must be appreciated to understand how mechanochemical reactions progress. Solid‐state reactions: Unusual sigmoidal kinetics in mechanochemical reactions can be explained by a feedback loop involving chemical and mechanical factors. During the reaction the physical form of the reaction mixture changes from a powder to a cohesive rubber‐like state.
doi_str_mv	10.1002/anie.201706723
format	Article
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subjects	Commercialization Feedback feedback cycles Kinetics Mechanical properties mechanochemistry Powder Reaction kinetics Rheological properties Rubber solid-state reactions sustainable chemistry
title	Feedback Kinetics in Mechanochemistry: The Importance of Cohesive States
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