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首页> 外文期刊>Environmental Science & Technology >In Silico Alkaline Hydrolysis of Octahydro-1,3,5,7-tetranitro-1,3,5,7-tetrazocine: Density Functional Theory Investigation
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In Silico Alkaline Hydrolysis of Octahydro-1,3,5,7-tetranitro-1,3,5,7-tetrazocine: Density Functional Theory Investigation

机译:Octahydro-1,3,5,7-tetranitro-1,3,5,7-tetrazocine在硅碱中的水解:密度泛函理论研究

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摘要

HMX (octahydro-1,3,5,7-tetranitro-1,3,5,7-tetrazocine), an energetic material used in military applications, may be released to the environment during manufacturing, transportation, storage, training, and disposal. A detailed investigation of a possible mechanism of alkaline hydrolysis, as one of the most promising methods for HMX remediation, was performed by computational study at PCM(Pauling)/M06-2X/6-311++G(d,p) level. Obtained results suggest that HMX hydrolysis at pH 10 represents a highly exothermic multistep process involving initial deprotonation and nitrite elimination, hydroxide attachment accompanied by cycle cleavage, and further decomposition of cycle-opened intermediate to the products caused by a series of C-N bond ruptures, hydroxide attachments, and proton transfers. Computationally predicted products of HMX hydrolysis such as nitrite, 4-nitro-2,4-diazabutanal, formaldehyde, nitrous oxide, formate, and ammonia correspond to experimentally observed species. Based on computed reaction pathways for HMX decomposition by alkaline hydrolysis, the kinetics of the entire process was modeled. Very low efficiency of this reaction at pH 10 was observed. Computations predict significant increases (orders of magnitude) of the hydrolysis rate for hydrolysis reactions undertaken at pH 11, 12, and 13.
机译:HMX(八氢-1,3,5,7-四硝基-1,3,5,7-四唑啉),一种军事用途的高能材料,可能在制造,运输,储存,培训和处置过程中释放到环境中。通过在PCM(Pauling)/ M06-2X / 6-311 ++ G(d,p)级别进行的计算研究,对碱性水解的可能机理进行了详细研究,这是最有希望的HMX修复方法之一。所得结果表明,pH值为10的HMX水解代表了高度放热的多步骤过程,涉及初始去质子化和亚硝酸根消除,氢氧化物附着并伴随循环裂解,以及由一系列CN键断裂,氢氧化物引起的开环中间体进一步分解为产物附件和质子转移。 HMX水解的计算预测产物,例如亚硝酸盐,4-硝基-2,4-二氮杂丁醛,甲醛,一氧化二氮,甲酸盐和氨,对应于实验观察到的物种。基于计算得出的碱水解HMX分解的反应途径,对整个过程的动力学进行了建模。在pH 10时观察到该反应的效率非常低。计算预测,在pH 11、12和13下进行的水解反应的水解速率将显着提高(数量级)。

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  • 来源
    《Environmental Science & Technology》 |2016年第18期|10039-10046|共8页
  • 作者

    Liudmyla K. Sviatenko; Leonid Gorb; Frances C. Hill; Danuta Leszczynska; Manoj K. Shukla; Sergiy I. Okovytyy; Dmytro Hovorun; Jerzy Leszczynski;

  • 作者单位

    Department of Chemistry and Biochemistry, Interdisciplinary Center for Nanotoxicity, Jackson State University, Jackson, Mississippi 39217, United States,Department of Organic Chemistry, Oles Honchar Dnipropetrovsk National University, Dnipropetrovsk 49000, Ukraine;

    HX5, Vicksburg, Mississippi 39180, United States;

    U.S. Army Engineer Research and Development Center, Vicksburg, Mississippi 39180, United States;

    Department of Civil and Environmental Engineering, Interdisciplinary Center for Nanotoxicity, Jackson State University, Jackson, Mississippi 39217, United States;

    U.S. Army Engineer Research and Development Center, Vicksburg, Mississippi 39180, United States;

    Department of Organic Chemistry, Oles Honchar Dnipropetrovsk National University, Dnipropetrovsk 49000, Ukraine;

    Institute of Molecular Biology and Genetics, National Academy of Sciences of Ukraine, 150 Zabolotny Street, Kyiv 03143, Ukraine;

    Department of Chemistry and Biochemistry, Interdisciplinary Center for Nanotoxicity, Jackson State University, Jackson, Mississippi 39217, United States;

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  • 入库时间 2022-08-17 13:58:58

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