3-硝基-1,2,4-三唑-5-酮的光解：机理与产物

Photolysis of 3-Nitro-1,2,4-triazol-5-one: Mechanisms and Products.

作者信息

Schroer Hunter W, Londono Esteban, Li Xueshu, Lehmler Hans-Joachim, Arnold William, Just Craig L

机构信息

Civil & Environmental Engineering, The University of Iowa, Iowa City, Iowa52242, United States.

Occupational & Environmental Health, The University of Iowa, Iowa City, Iowa52246, United States.

出版信息

ACS ES T Water. 2023 Feb 2;3(3):783-792. doi: 10.1021/acsestwater.2c00567. eCollection 2023 Mar 10.

DOI:10.1021/acsestwater.2c00567

PMID:36936519

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10012174/

Abstract

Insensitive munitions formulations that include 3-nitro-1,2,4-triazol-5-one (NTO) are replacing traditional explosive compounds. While these new formulations have superior safety characteristics, the compounds have greater environmental mobility, raising concern over potential contamination and cleanup of training and manufacturing facilities. Here, we examine the mechanisms and products of NTO photolysis in simulated sunlight to further inform NTO degradation in sunlit surface waters. We demonstrate that NTO produces singlet oxygen and that dissolved oxygen increases the NTO photolysis rate in deionized water. The rate of NTO photolysis is independent of concentration and decreases slightly in the presence of Suwannee River Natural Organic Matter. The apparent quantum yield of NTO generally decreases as pH increases, ranging from 2.0 × 10 at pH 12 to 1.3 × 10 at pH 2. Bimolecular reaction rate constants for NTO with singlet oxygen and hydroxyl radical were measured to be (1.95 ± 0.15) × 10 and (3.28 ± 0.23) × 10 M s, respectively. Major photolysis reaction products were ammonium, nitrite, and nitrate, with nitrite produced in nearly stoichiometric yield upon the reaction of NTO with singlet oxygen. Environmental half-lives are predicted to span from 1.1 to 5.7 days. Taken together, these data enhance our understanding of NTO photolysis under environmentally relevant conditions.

摘要

包含3-硝基-1,2,4-三唑-5-酮（NTO）的钝感弹药配方正在取代传统的爆炸化合物。虽然这些新配方具有卓越的安全特性，但这些化合物具有更强的环境迁移性，这引发了人们对训练和制造设施潜在污染及清理的担忧。在此，我们研究了NTO在模拟阳光下的光解机制和产物，以进一步了解NTO在阳光照射的地表水层中的降解情况。我们证明NTO会产生单线态氧，并且溶解氧会提高去离子水中NTO的光解速率。NTO的光解速率与浓度无关，并且在存在苏万尼河天然有机物的情况下略有下降。NTO的表观量子产率通常随着pH值的升高而降低，在pH值为12时为2.0×10，在pH值为2时为1.3×10。测量得到NTO与单线态氧和羟基自由基的双分子反应速率常数分别为(1.95±0.15)×10和(3.28±0.23)×10 M s。主要的光解反应产物为铵、亚硝酸盐和硝酸盐，当NTO与单线态氧反应时，亚硝酸盐以接近化学计量的产率生成。预计环境半衰期为1.1至5.7天。综上所述，这些数据增进了我们对环境相关条件下NTO光解的理解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d2ba/10012174/16591838553c/ew2c00567_0001.jpg

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3-硝基-1,2,4-三唑-5-酮的光解：机理与产物

Photolysis of 3-Nitro-1,2,4-triazol-5-one: Mechanisms and Products.

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