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Abstract
Strain has a unique and sometimes unpredictable impact
on the properties and reactivity of molecules. To thoroughly describe strain in
molecules, a computational tool that relates strain to reactivity by localizing
and quantifying strain was developed. Strain is calculated local to every coordinate
in the molecule and areas of higher strain are shown experimentally to be more
reactive. Not only does this tool directly compare strain in parts of the same
molecule, but it also computes total strain to give a full picture of molecular
strain. It is freely available to the public on GitHub under the name StrainViz
and much of the workflow is automated to simplify use for non-experts. Unique
insight into the reactivity of curved aromatic molecules and strained alkyne
bioorthogonal reagents is described within.
Supplementary materials
Title
TOCv2
Description
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