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Abstract
Electron microscopy and electron diffraction are powerful imaging and structural elucidation methods where sample information is generally limited by random chemical and structural damage. Here we show how a well-selected chemical probe can be used to transform indiscriminate chemical damage into clean chemical processes that can be used to characterize some aspects of the interactions between high energy electron beams and soft organic matter. Crystals of a Dewar benzene exposed to a 300 keV electron beam facilitate a clean valence-bond isomerization radical-cation chain reaction where the number of chemical events per incident electron is amplified by a factor of up to ca. 90,000.
Supplementary materials
Title
Supplementary Materials for: From Beam Damage to Massive Reaction Amplification Under the Electron Microscope: An Ionization-Induced Chain Reaction in Crystals of a Dewar Benzene
Description
Materials and Methods, Analytical characterization data, X-Ray and electron diffraction data, electron beam experiment data, NMR spectral data, cyclic voltammetry data. Cif file with structure factors for the micro-ED analysis and attempted structure solution of Dewar benzene 1.
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