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Switching Chemoselectivity: Using Mechanochemistry to Alter Reaction Kinetics

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posted on 2024-09-18, 10:33 authored by Duncan BrowneDuncan Browne, Joseph HowardJoseph Howard, MC Brand

The data here contains a selection of 1H, 13C, 19F NMR data, as well as IR, MS and any relevant chromatography information. Some files may be processed in advance and deposited and some may require access to typical processing tools for data of this type.
Abstract: A reaction manifold has been discovered in which the chemoselectivity can be altered by switching between neat milling and liquid assisted grinding (LAG) with polar additives. After investigation of the reaction mechanism, it has been established that this switching in reaction pathway is due to the neat mechanochemical conditions exhibiting different kinetics for a key step in the transformation. This proof of concept study demonstrates that mechanochemistry can be used to trap the kinetic product of a reaction. It is envisaged that, if this concept can be successfully applied to other transformations, novel synthetic processes could be discovered and known reaction pathways perturbed or diverted.


Funding

Shaken not stirred: Unleashing the potential of solvent-free mechanochemical synthesis (2017-01-01 - 2018-01-31); Browne, Duncan. Funder: Engineering and Physical Sciences Research Council:EP//P002951/1

Development of industrially relevant continuous flow processes (2015-10-01 - 2019-09-30); Browne, Duncan. Funder: Cambridge Reactor Design Ltd

History

Specialist software required to view data files

.fid files are processed using standard NMR processing software.

Data-collection start date

2017-06-01

Data-collection end date

2018-09-01

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    School of Chemistry

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