Nontarget analysis and characterization of alkylamides in electrical product plastics by gas chromatography-positive chemical ionization quadrupole-orbitrap high-resolution mass spectrometry and quasi-molecular ion screening and anchoring algorithm

•A nontarget analysis method for alkylamides by GC-PCI-Q-Orbitrap-HRMS was developed.•An algorithm for screening and anchoring quasi-molecular ions was developed and used.•Characterization of alkylamides in 2 sockets and an electric fan was accomplished.•In all 36 alkylamides were identified and the...

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Published in:Journal of Chromatography A 2022-10, Vol.1682, p.463466, Article 463466
Main Authors: Tang, Caiming, Huang, Qiuxin, Zhu, Yizhe, Liang, Yutao, Zeng, Yanhong, Luo, Xiaojun, Mai, Bixian, Peng, Xianzhi
Format: Article
Language:English
Subjects:
Alkylamides
Data-processing algorithm
Electrical product plastics
Gas chromatography-positive chemical ionization high-resolution mass spectrometry
Nontarget analysis
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Summary:•A nontarget analysis method for alkylamides by GC-PCI-Q-Orbitrap-HRMS was developed.•An algorithm for screening and anchoring quasi-molecular ions was developed and used.•Characterization of alkylamides in 2 sockets and an electric fan was accomplished.•In all 36 alkylamides were identified and their relative contents were revealed.•Occurrence characteristics of alkylamides in the electrical products were sketched. Alkylamides are used as plastic additives in various materials and products, potentially posing risks to human health and the environment. Besides reported alkylamides in plastics, many unknown alkylamides may exist in various plastics, which are needing identification and characterization. This study performed nontarget analysis of alkylamides in electrical product plastics by gas chromatography-positive chemical ionization high-resolution mass spectrometry in full scan mode and an in-house developed data-processing algorithm. The algorithm was based on exact mass discrepancies and signal intensities of specific fragment and adduct ions of alkylamides, and was able to efficiently screen and anchor quasi-molecular ions. As a whole, 36 alkylamides were identified, of which 7 were found in all the plastics and 14 were observed in ≥ 2 plastics. The content distributions were elucidated with normalized abundances of quasi-molecular ions of alkylamides. Oleamide showed chromatographic peaks with the highest abundances in individual samples and was the most abundant alkylamide in all the plastics, of which the normalized abundances accounted for 57.42–70.06% of the total abundances of all alkylamides. Besides, (2E)-2-hexenamide, palmitamide and stearamide showed relatively high abundances, of which the relative abundances were 6.99–25.79%. The high abundances together with predicted environmental behaviors and toxicities indicate that alkylamides in plastics are worthy of further in-depth research. The nontarget analysis method including the instrumental analysis and data-processing algorithm can be applied to identification and characterization of alkylamides in more diverse matrices. In addition, the analysis results for the first time provide knowledge about the specific characteristics and relative content distributions of alkylamides in electrical product plastics from a comprehensive perspective.
ISSN:0021-9673
DOI:10.1016/j.chroma.2022.463466