高分辨率 TG-TOFMS 与主成分分析和 Kendrick 质量缺陷分析相结合:阐明玻璃纤维增强聚丙烯在热氧化降解过程中的分子尺度降解行为

IF 7.3 1区 化学 Q1 CHEMISTRY, ANALYTICAL Analytical Chemistry Pub Date : 2025-01-13 DOI:10.1021/acs.analchem.4c04630
Taiki Ozawa, Sayaka Nakamura, Hiroaki Sato, Hideyuki Shinzawa, Hideaki Hagihara, Ryota Watanabe
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引用次数: 0

摘要

本研究提出了一种结合热重分析、飞行时间质谱(TG-TOFMS)、主成分分析(PCA)和Kendrick质量缺陷(KMD)分析(简称TG-PCA-KMD)的新方法,以研究玻璃纤维增强聚丙烯(GF/PP)的分子尺度结构变化和定量评估热氧化降解的进展。TG-TOFMS能够同时灵敏地检测由于热氧化降解引起的结构变化以及填料和基质中成分的变化。在TG-TOFMS获得的高分辨率质谱中,PCA和KMD分析对于识别来自降解PP基质的特定离子系列至关重要。此外,采用PCA拟合方法从不同的热重剖面中选择性地提取GF/PP降解组分的信息。我们的研究结果证明了TG-PCA-KMD在复合材料降解分析中的优势和实用性。
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High-Resolution TG-TOFMS Coupled with Principal Component Analysis and Kendrick Mass Defect Analysis: Elucidation of Molecular-Scale Degradation Behavior of Glass Fiber Reinforced Polypropylene during Thermo-Oxidative Degradation
This study presents a novel approach that combines thermogravimetric analysis with time-of-flight mass spectrometry (TG-TOFMS), principal component analysis (PCA), and Kendrick mass defect (KMD) analysis─referred to as TG-PCA-KMD─to investigate molecular-scale structural changes and quantitatively assess the progression of thermo-oxidative degradation in glass fiber reinforced polypropylene (GF/PP). TG-TOFMS enables the simultaneous and sensitive detection of both structural changes due to thermo-oxidative degradation and compositional changes in the filler and matrix. PCA and KMD analysis are crucial for identifying specific ion series derived from the degraded PP matrix in the high-resolution mass spectra obtained through TG-TOFMS. Additionally, PCA fitting was employed to selectively extract information on the degraded components of GF/PP from differential thermogravimetric profiles. Our findings demonstrate the advantages and utility of TG-PCA-KMD in the degradation analysis of composite materials.
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来源期刊
Analytical Chemistry
Analytical Chemistry 化学-分析化学
CiteScore
12.10
自引率
12.20%
发文量
1949
审稿时长
1.4 months
期刊介绍: Analytical Chemistry, a peer-reviewed research journal, focuses on disseminating new and original knowledge across all branches of analytical chemistry. Fundamental articles may explore general principles of chemical measurement science and need not directly address existing or potential analytical methodology. They can be entirely theoretical or report experimental results. Contributions may cover various phases of analytical operations, including sampling, bioanalysis, electrochemistry, mass spectrometry, microscale and nanoscale systems, environmental analysis, separations, spectroscopy, chemical reactions and selectivity, instrumentation, imaging, surface analysis, and data processing. Papers discussing known analytical methods should present a significant, original application of the method, a notable improvement, or results on an important analyte.
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