Insight into a stepped fragmentation of coal-related model compounds using a tandem Orbitrap mass spectrometer

[Display omitted] •Energy-resolved HCD fragmentation of coal-related model compounds was studied.•Fragmentation pathways and de-alkylation behaviors were explored.•Relationship between fragment structure and collision energy was established. To provide basic knowledge for coal conversion, twenty one...

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Bibliographic Details
Published in:Microchemical journal 2022-03, Vol.174, p.107056, Article 107056
Main Authors: Li, Guo-Sheng, Wang, Min-Hua, Fan, Xing, Dong, Xueming, Wei, Xian-Yong, Chen, Bo, Wang, Jiao-Fei
Format: Article
Language:English
Subjects:
Coal
Higher-energy collisional dissociation
Mass spectrometry
Model compounds
Orbitrap
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Summary:[Display omitted] •Energy-resolved HCD fragmentation of coal-related model compounds was studied.•Fragmentation pathways and de-alkylation behaviors were explored.•Relationship between fragment structure and collision energy was established. To provide basic knowledge for coal conversion, twenty one coal-related model compounds (MCs) were analyzed using a tandem Orbitrap mass spectrometer (MS). Higher-energy collisional dissociation (HCD), a method of Orbitrap MS, unraveled the detailed fragmentation pathways and de-alkylation behaviors of the ionized MCs under collision energies from 10 to 80 eV. Chemical bond breaking, hydrogen loss, rearrangement reaction, and elimination of neutral fragments were discussed to elucidate clear fragmentation pathways. For arenes without alkyl chains, a higher energy threshold of fragmentation was observed with the increasing of aromatic ring due to a higher conjugate effect of condensed aromatic structure. The existence of alkyl chains decreased the threshold of fragmentation because of the electron-donating effect of alkyl chains. Heteroatom-containing aromatic compounds, a series of important species in coal, showed a diversified fragmentation patterns due to a low bond dissociation energy and a weak conjugate effect compared with arenes. Fragmentation pathways and de-alkylation behaviors of coal-related MCs will contribute to building monitoring methods for coal and its derivatives conversions in chemical industry.
ISSN:0026-265X
1095-9149
DOI:10.1016/j.microc.2021.107056