Terminal Group Structural Characterization of Hydrolyzed, Thermally Oxidized and Alcoholyzed Polyamide 6 and Polyamide 66 by MALDI-TOF-MS

We attempted to determine the cause of the degradation of polyamide (PA), using matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF-MS), which enables a characterization of the terminal group structure of PA. First, optimization of the matrix for PA ionization was...

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Veröffentlicht in:	BUNSEKI KAGAKU 2018/10/05, Vol.67(10), pp.611-617
Hauptverfasser:	OKAMOTO, Kazuo, INOUE, Masae
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Sprache:	eng ; jpn
Schlagworte:	alcoholysis Aqueous solutions Benzoic acid Cyclic oligomers Degradation Ethylene glycol Hydrolysis Ionization Ions MALDI-TOF-MS Mass spectrometry Oligomers Optimization Oxidation polyamide Polyamide resins Structural analysis terminal group structural characterization thermal oxidation
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creator	OKAMOTO, Kazuo INOUE, Masae
description	We attempted to determine the cause of the degradation of polyamide (PA), using matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF-MS), which enables a characterization of the terminal group structure of PA. First, optimization of the matrix for PA ionization was performed using the original and hydrolyzed PA6; 2’-(4-Hydroxyphenylazo)benzoic acid (HABA) and 4-Hydroxybenzylidenemalononitrile (HBMN) were found to be optimum matrices. We then studied the terminal group structure of the original PA6 and PA66, and their hydrolyzed, and thermally oxidized models, using MALDI-TOF-MS with HABA as a matrix. Although only cyclic oligomers were observed on the mass spectrum of the original PA, cyclic oligomers, as well as linear oligomers containing amino and carboxyl terminal groups at one or both ends, were observed on the mass spectrum of hydrolyzed PA. Also, cyclic oligomers, as well as linear oligomers having aldehyde, carboxyl, amide, N-formamide, and alkyl terminal groups at one or both ends, were observed on the mass spectrum of thermally oxidized PA. In addition, MALDI-TOF-MS with HBMN as a matrix was utilized in the terminal group structural characterization of PA66 heated at 120 °C for 1000 hours in a 50 wt% ethylene glycol aqueous solution; it was clear that the PA66 was decomposed by alcoholysis as well as hydrolysis of the amide linkage. Therefore, MALDI-TOF-MS was confirmed to be a powerful tool for a detailed analysis of the terminal group structure of PA, and for an easy determination of the causes of degradation, such as hydrolysis, thermal oxidation and alcoholysis.
doi_str_mv	10.2116/bunsekikagaku.67.611
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First, optimization of the matrix for PA ionization was performed using the original and hydrolyzed PA6; 2’-(4-Hydroxyphenylazo)benzoic acid (HABA) and 4-Hydroxybenzylidenemalononitrile (HBMN) were found to be optimum matrices. We then studied the terminal group structure of the original PA6 and PA66, and their hydrolyzed, and thermally oxidized models, using MALDI-TOF-MS with HABA as a matrix. Although only cyclic oligomers were observed on the mass spectrum of the original PA, cyclic oligomers, as well as linear oligomers containing amino and carboxyl terminal groups at one or both ends, were observed on the mass spectrum of hydrolyzed PA. Also, cyclic oligomers, as well as linear oligomers having aldehyde, carboxyl, amide, N-formamide, and alkyl terminal groups at one or both ends, were observed on the mass spectrum of thermally oxidized PA. In addition, MALDI-TOF-MS with HBMN as a matrix was utilized in the terminal group structural characterization of PA66 heated at 120 °C for 1000 hours in a 50 wt% ethylene glycol aqueous solution; it was clear that the PA66 was decomposed by alcoholysis as well as hydrolysis of the amide linkage. 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First, optimization of the matrix for PA ionization was performed using the original and hydrolyzed PA6; 2’-(4-Hydroxyphenylazo)benzoic acid (HABA) and 4-Hydroxybenzylidenemalononitrile (HBMN) were found to be optimum matrices. We then studied the terminal group structure of the original PA6 and PA66, and their hydrolyzed, and thermally oxidized models, using MALDI-TOF-MS with HABA as a matrix. Although only cyclic oligomers were observed on the mass spectrum of the original PA, cyclic oligomers, as well as linear oligomers containing amino and carboxyl terminal groups at one or both ends, were observed on the mass spectrum of hydrolyzed PA. Also, cyclic oligomers, as well as linear oligomers having aldehyde, carboxyl, amide, N-formamide, and alkyl terminal groups at one or both ends, were observed on the mass spectrum of thermally oxidized PA. In addition, MALDI-TOF-MS with HBMN as a matrix was utilized in the terminal group structural characterization of PA66 heated at 120 °C for 1000 hours in a 50 wt% ethylene glycol aqueous solution; it was clear that the PA66 was decomposed by alcoholysis as well as hydrolysis of the amide linkage. 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First, optimization of the matrix for PA ionization was performed using the original and hydrolyzed PA6; 2’-(4-Hydroxyphenylazo)benzoic acid (HABA) and 4-Hydroxybenzylidenemalononitrile (HBMN) were found to be optimum matrices. We then studied the terminal group structure of the original PA6 and PA66, and their hydrolyzed, and thermally oxidized models, using MALDI-TOF-MS with HABA as a matrix. Although only cyclic oligomers were observed on the mass spectrum of the original PA, cyclic oligomers, as well as linear oligomers containing amino and carboxyl terminal groups at one or both ends, were observed on the mass spectrum of hydrolyzed PA. Also, cyclic oligomers, as well as linear oligomers having aldehyde, carboxyl, amide, N-formamide, and alkyl terminal groups at one or both ends, were observed on the mass spectrum of thermally oxidized PA. 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subjects	alcoholysis Aqueous solutions Benzoic acid Cyclic oligomers Degradation Ethylene glycol Hydrolysis Ionization Ions MALDI-TOF-MS Mass spectrometry Oligomers Optimization Oxidation polyamide Polyamide resins Structural analysis terminal group structural characterization thermal oxidation
title	Terminal Group Structural Characterization of Hydrolyzed, Thermally Oxidized and Alcoholyzed Polyamide 6 and Polyamide 66 by MALDI-TOF-MS
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