Identifying and mapping chemical bonding within phenolic resin using secondary electron hyperspectral imaging

Nicholas T.H. Farr; Sameer F. Hamad; Euan Gray; Christopher M. Magazzeni; Fodio Longman; David E.J. Armstrong; Joel P. Foreman; Frederik Claeyssens; Nicola H. Green; Cornelia Rodenburg

Journal ArticleOPEN ACCESS

Identifying and mapping chemical bonding within phenolic resin using secondary electron hyperspectral imaging

Polymer Chemistry (2021) 12(2) 177-182

DOI: 10.1039/d0py01220c

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Abstract

The distributions of methylene and ether bridges have been shown to impact the mechanical properties of phenolic resin. This work demonstrates the ability of the novel SEM based technique, secondary electron hyperspectral imaging (SEHI), to characterise and map methylene and ether bridges within phenolic resin at the nanoscale. This journal is

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APA

Farr, N. T. H., Hamad, S. F., Gray, E., Magazzeni, C. M., Longman, F., Armstrong, D. E. J., … Rodenburg, C. (2021). Identifying and mapping chemical bonding within phenolic resin using secondary electron hyperspectral imaging. Polymer Chemistry, 12(2), 177–182. https://doi.org/10.1039/d0py01220c

Identifying and mapping chemical bonding within phenolic resin using secondary electron hyperspectral imaging

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