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常压化学电离产生的氨基硝基甲苯异构体的电离行为特征。

Characteristics of ionization behaviors of aminonitrotoluene isomers produced by atmospheric pressure chemical ionization.

机构信息

Department of Chemistry, Sejong University, Seoul, Republic of Korea.

出版信息

Rapid Commun Mass Spectrom. 2022 Oct 15;36(19):e9365. doi: 10.1002/rcm.9365.

DOI:10.1002/rcm.9365
PMID:35894941
Abstract

RATIONALE

Six of the isomers of aminonitrotoluene (ANT) are 2-amino-3-nitrotoluene (2A3NT), 2A4NT, 2A5NT, 2A6NT, 4A2NT, and 4A3NT. Some of them can be identified by chromatography and spectroscopy. Biochemical transformation of 2,4,6-trinitrotoluene (TNT) and dinitrotoluenes (DNTs) is very complex and ANTs are decomposition products of TNT and DNTs.

METHODS

Each isomer in acetone was ionized using atmospheric pressure chemical ionization in positive and negative ion modes, and kinds and abundances of the product ions were analyzed. Energy-minimized structures of the product ions and their energies were calculated to explain the analysis results.

RESULTS

The [M + H] , [M + H + Acetone - H O] , and [M + H + Acetone] ions as positive product ions were detected, while [M - H] , M , and [M + O ] ions as negative ones were observed. The order of the ionization efficiencies for the positive product ions was 4A3NT > 4A2NT > 2A4NT > 2A6NT > 2A5NT > 2A3NT, while that of the negative ones was 2A5NT > 2A3NT > 4A3NT > 2A4NT > 2A6NT > 4A2NT. Ion abundance ratios for 2A3NT and 2A5NT showed very similar trends, while those of 2A6NT and 4A2NT also showed similar trends. Differences in the ionization behaviors were explained using the heats of reaction.

CONCLUSIONS

The product ions were produced by ion-molecule reactions with the reactant ions of [2Acetone + H] and [Acetone + O ] . The [M + H + Acetone] ion was fragmented to produce [M + H] and [M + H + Acetone - H O] , while the [M + O ] ion was fragmented to generate the [M - H] and M ions. Differences in the ionization behaviors of the ANTs can be used for their differentiation.

摘要

理由

氨基硝甲苯(ANT)的 6 种异构体为 2-氨基-3-硝甲苯(2A3NT)、2A4NT、2A5NT、2A6NT、4A2NT 和 4A3NT。其中一些可以通过色谱和光谱法来识别。2,4,6-三硝基甲苯(TNT)和二硝基甲苯(DNTs)的生化转化非常复杂,而 ANTs 是 TNT 和 DNTs 的分解产物。

方法

将每种异构体在丙酮中用大气压化学电离在正、负离子模式下进行电离,并分析产物离子的种类和丰度。计算产物离子的能量最小化结构及其能量,以解释分析结果。

结果

检测到正产物离子为[M+H]+、[M+H+丙酮-H2O]和[M+H+丙酮],而负产物离子为[M-H]、M 和[M+O]。正产物离子的电离效率顺序为 4A3NT>4A2NT>2A4NT>2A6NT>2A5NT>2A3NT,而负产物离子的顺序为 2A5NT>2A3NT>4A3NT>2A4NT>2A6NT>4A2NT。2A3NT 和 2A5NT 的离子丰度比表现出非常相似的趋势,而 2A6NT 和 4A2NT 的离子丰度比也表现出相似的趋势。用反应热解释了电离行为的差异。

结论

产物离子是通过与反应物离子[2 丙酮+H]和[丙酮+O]的离子-分子反应生成的。[M+H+丙酮]离子发生碎裂,生成[M+H]和[M+H+丙酮-H2O],而[M+O]离子发生碎裂,生成[M-H]和 M 离子。ANTs 的电离行为差异可用于它们的区分。

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