Protonation Effects on the Benzoxazine Formation Pathways and Products Distribution

Ribeiro, Francisco W. M.; Omari, Isaac; Scott McIndoe, J.; Correra, Thiago C.

doi:10.1002/cphc.202400295

ChemPhysChem

2024

DOI: 10.1002/cphc.202400295

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Protonation Effects on the Benzoxazine Formation Pathways and Products Distribution

Francisco W. M. Ribeiro,

Isaac Omari,

J. Scott McIndoe

et al.

Abstract: The effect of acidic media on the formation of the 3,4‐dihydro‐2H‐3‐phenyl‐1,3‐benzoxazine Bz is evaluated, focusing on the differentiation of intermediates and products formed by the distinct pathways observed in the presence and absence of acid. The use of real‐time mass spectrometry (PSI‐ESI‐MS) coupled to tandem MS and infrared multiple photon dissociation (IRMPD) allowed the differentiation of the species observed during the synthesis of benzoxazines in these different conditions. The results suggest that… Show more

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Isomeric Speciation of Bisbenzoxazine Intermediates by Ion Spectroscopy and Ion Mobility Mass Spectrometry

Ribeiro,

Silva-Oliveira,

Cervi

et al. 2024

ACS Omega

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Bisbenzoxazines (BisBz) are a relevant model for the diverse bifunctional benzoxazines that are used to increase the polybenzoxazines cross-linking extensions and modulate the final resin properties for various usages. The presence of side products and intermediates during monomer formation can influence the resin characteristics by inducing chain termination and ramifications, affecting the polymerization and cure processes. This work investigated the diverse isomeric intermediates and side products that are present during the BisBz formation from bisphenol A, aniline, and formaldehyde by ion mobility coupled to tandem mass spectrometry (MS/MS) and ion spectroscopy techniques. The species detected in this work suggest that these multifunctional phenols open diverse concurrent reaction pathways based on two main reactive steps: (i) the imine/iminium phenol attack to form a phenylamino intermediate and (ii) the formaldehyde attack followed by dehydration to form the oxazine ring. The species observed also support previous studies of the benzoxazine formation mechanism and showcase the application of advanced analytical techniques in studying complex chemical systems.

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Isomeric Speciation of Bisbenzoxazine Intermediates by Ion Spectroscopy and Ion Mobility Mass Spectrometry

Ribeiro,

Silva-Oliveira,

Cervi

et al. 2024

ACS Omega

View full text Add to dashboard Cite

show abstract

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Protonation Effects on the Benzoxazine Formation Pathways and Products Distribution

Cited by 1 publication

References 47 publications

Isomeric Speciation of Bisbenzoxazine Intermediates by Ion Spectroscopy and Ion Mobility Mass Spectrometry

Isomeric Speciation of Bisbenzoxazine Intermediates by Ion Spectroscopy and Ion Mobility Mass Spectrometry

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