多硝基苯酸酯炸药分子键离解能与撞击感度关系研究

用密度泛函方法,在B3LYP-6-31G*、B3P86/6-31G*和B3LYP-6-311G*三种理论水平对四个含硝基烷基的苯酸酯炸药分子进行了几何结构全优化、能量和频率计算。并对这些炸药分子苯环上的C-NO2和烷基上的C-NO2键离解能分别进行了三种理论水平的计算。结果表明,这类分子中的最弱键是烷基上的C-NO2键。进一步分析实验撞击感度与分子中最弱键离解能量的关系,结果表明,分子最弱键离解能与分子总能量的比值BDE/E和实验撞击感度h50%之间存在一个几乎线性的关联关系。BDE/E是表征炸药撞击感度的一个实用的合理指针。     

含alphaC-H键的硝基芳香族炸药分子的C-NO2键离解能研究

采用密度泛函理论中的B3LYP方法,取6-31G*基组,对含alpha C-H键的硝基苯类炸药的分子结构和能量,以及C-NO2键离解能等进行计算,讨论了含alpha C-H键的硝基苯类炸药分子中C-NO2键离解能的强弱与其位置的关系。研究表明:alpha C-H键邻位的C-NO2键离解能比对位的C-NO2键离解能弱,邻位中又以受alpha C-H键影响最大的C-NO2键离解能最弱。     

五种典型硝基苯胺类炸药的静电势与撞击感度的关系研究

利用HONDO程序包,采用从头算法对硝基苯胺类炸药的分子结构和电偶极矩等性质以及 C-NO2键中点静电势等进行计算,讨论了硝基苯胺类炸药C-NO2键中点静电势最大值Vmidmax与其实验撞击感度之间的关系.研究表明:对于硝基苯胺类炸药,不宜单独用C-NO2键中点静电势最大值Vmidmax来表征撞击感度的变化,但可以用静电势最大值Vmidmax与电偶极矩的积来确定其撞击感度的变化趋势,讨论了硝基和胺基的相对位置以及硝基和胺基的数目对这类炸药感度的影响.     

硝基甲苯类炸药C-NO2键中点的静电势

利用HONDO程序包,采用从头计算法对硝基甲苯类炸药的分子结构及其C-NO2键中点的静电势进行了计算,讨论了硝基甲苯类炸药C-NO2键中点的静电势最大值Vmidmax与其实验撞击感度之间的关系.研究表明:对于硝基甲苯类炸药,可用其分子C-NO2键中点的静电势最大值Vmidmax来确定其撞击感度的变化趋势.以静电势为判据,讨论了硝基和甲基数目以及硝基和甲基的相对位置对这类炸药撞击感度的影响.     

取代硝基苯炸药的理论研究

在133LYP/6.31 G*理论水平上优化了一系列取代硝基苯类化舍物的几何构型,计算了它们的电子结构和Wiberg键级,结果表明,随着氨基的引入,起爆引发键C-NO2键的强度有可能得到加强,炸药的撞击感度减小.讨论了分子内氢键与其撞击感度的关系,结果表明氢键的形成可能对分子的撞击感度起钝化作用.讨论了C-NO2键的强弱与其位置的关系.     

硝基环丁烷炸药及其衍生物表面静电势与感度理论研究

在DFT-B3LYP/6-311++G**水平上,研究了硝基环丁烷及其衍生物和硝基环己烷C-NO2 和 N-NO2 键的中点、环上方分子表面静电势及其统计量,建立了三种标题化合物实验撞击感度h50与分子表面静电势及其统计量之间的定量关系。结果表明,这些模型的相关性较差。然而,环张力贡献的引入使其相关性增强。作为一种表征分子全局性质的物理量,分子表面静电势可用于预估炸药分子的感度。随着实验数据的增多,建立撞击感度h50与分子表面静电势及其静电势的统计量之间的定量关系是有必要的。     

三硝基甲烷键离解能和生成焓的理论计算

采用密度泛函(DFT)四种交换/相关函数(B3LYP、B3P86、B3PW91和PBE0)结合不同的基函数,求得了三硝基甲烷C-NO2键的离解能(BDE),并且通过合理选择参考物硝基甲烷,设计等键等电子对反应,计算了气相三硝基甲烷分子的生成焓(HOF).与实验数据进行比较,PBE0/6-31g*计算出的BDE值最好,误差为-2.1 kcal mol-1;PBE0密度泛函结合带极化函数的6-31g基组得到的HOF值与实验值吻合的最好(误差在0.1 kcal mol-1以内).     

五种典型硝苯胺类炸药的静电势与撞击感度的关系研究

利用NONDO程序包，采用双头算法对硝基苯胺类炸药的分子结构和电偶极矩等性质以及C－NO2键中点静电势等进行计算，讨论了硝基苯胺类炸药C－NO2键中点静电势最大值Vimidmax与其实验撞击感度之间的关系。研究表明：对于硝基苯胺类炸药，不宜单独用C－NO2键中点静电势最大值Vmidmax来表征撞击感度的变化，但可以用静电势最大值Vmidmax与电偶极矩的积来确定其撞击感度的变化趋势，讨论了硝基和胺基的相对位置以及硝基和胺基的数目对这类炸药感度的影响。     

凝聚态硝基甲烷分解机理的密度泛函研究

用密度泛函理论在B3LYP/6-311++G(2d,2P)计算水平上对最低单态和最低三态的硝基甲烷分子进行了分子动力学计算分析,发现:基态硝基甲烷分子沿C-N键分解生成硝基和甲基反应通道上不存在过渡态,只能是在能量足够高的时候造成C-N键的断裂,键离解能为53.4kcal/mol;硝基甲烷分子在最低三态沿C-N键分解生成硝基和甲基的反应通道上,有一个活化能为87.8kcal/mol的能垒.计算得到硝基甲烷分子从基态到最低三态分解反应发生所需要的总能量为144.58kcal/mol.这个数值与硝基甲烷材料的电子碰撞实验在193nm处有强吸收峰的结论相符合.依据多声子迁移理论,结合硝基甲烷分子在最低三态动力学分解的可能性,可以认为在相同条件下,硝基甲烷材料在撞击条件下,分子沿CN键分裂生成硝基和甲基的反应在最低三态分子分解的可能性较大.文章用量化计算从分子构型、频率分析和势能面扫描方面对分析结论进行了加强和确定,并且,依据多声子迁移理论对硝基甲烷分子基态键离解过程、基态到三态激发过程和最低三态活化过程中的声子迁移进行了初步分析.     

硝基环丁烷炸药及其衍生物表面静电势与感度理论研究

在DFT-B3LYP/6-311++G**水平上,研究了硝基环丁烷及其衍生物和硝基环己烷C-NO_2和N-NO_2键的中点、环上方分子表面静电势及其统计量,建立了三种标题化合物实验撞击感度h50与分子表面静电势及其统计量之间的定量关系.结果表明,这些模型的相关性较差.然而,环张力贡献的引入使其相关性增强.作为一种表征分子全局性质的物理量,分子表面静电势可用于预估炸药分子的感度.随着实验数据的增多,建立撞击感度h_(50)与分子表面静电势及其静电势的统计量之间的定量关系是有必要的.     

烷烃与羟基自由基反应速率常数的估算

根据烷烃分子中碳氢键离解能与烷基Ri的极化效应指数(PEI)的关系,由PEI表达烷烃C-H键与羟基自由基反应的活化能E;用烷基Ri的拓扑立体效应指数(TSEI)定量相关阿仑尼乌斯公式中的指数前因子A.研究表明PEI、TSEI和温度T三参数可以定量关联羟基自由基与烷烃中伯、仲、叔碳氢键反应的活性.所得方程可以准确地区分不同C-H键的活性.结合烷基Ri的PEI和TSEI参数用于预测不同温度下烷烃、环烷烃与羟基自由基反应的绝对速率常数和相对速率常数,预测值与实验值一致.     

Determination of sulfoxide bond dissociation enthalpies of dibenzothiophene S‐oxide derivatives with computational methods

Photodeoxygenation of dibenzothiophene S‐oxide (DBTO) has been suggested as a clean way to generate atomic oxygen in solution. Sulfoxide bond dissociation enthalpies (BDEs) are important to the quantum yield and mechanism of this photodeoxygenation. In this study, BDE of substituted DBTO molecules with various functional groups were determined using M062X/aug‐cc‐pV(T + d)Z and MP2/aug‐cc‐pV(T + d)Z levels of theory. The sulfoxide BDE was determined using an isodesmic reaction. The observed effect of substitution was that functional groups with negative σ_para values (electron donating) strengthen the sulfoxide bond and that substituents with positive σ_para values (electron withdrawing) weaken the sulfoxide bond. The Mulliken charge on sulfur for DBTO and the corresponding dibenzothiophene were identified as a suitable indicator of the predicted S–O BDE. Moreover, steric and hydrogen bonding interactions were found to affect sulfoxide BDE for certain functional groups when located at the 1 or 4 positions of the substituted DBTO. Copyright © 2014 John Wiley & Sons, Ltd.     

新戊基溴和叔戊基溴在234 nm的光解动力学

使用离子速度成像技术研究了新戊基溴和叔戊基溴的234 nm光解动力学. 由于它们具有比正戊基溴更多的支链,因此不仅可以观测到C-Br键的直接断裂,还分别存在一个和两个由于弯曲振动模被激发引起的慢速解离通道,母体分子在C-Br键断裂之前就已经有大量的可资用能被用于激发弯曲振动模. 这些充分说明了新戊基溴和叔戊基溴在234 nm光解中C-Br键的断裂是由于伸缩振动和弯曲振动的耦合而产生的,而不单纯归咎于伸缩振动引起.     

Theoretical Study of the C-Cl Bond Dissociation Enthalpy and Electronic Structure of Substituted Chlorobenzene Compounds

利用密度泛函(DFT)三种交换/相关函数(B3LYP, B3PW91,B3P86)结合6-31G**和6-311G**基组,计算了13个取代氯苯化合物的键离解能. 结果表明B3P86/6-311G**方法是计算取代氯苯化合物键离解能的可信方法,研究发现C-Cl键的键离解能与所使用的基组和计算方法密切相关,取代基对C-Cl键的键离解能的影响不明显. 研究了目标化合物的前线轨道能级差,并对取代氯苯化合物的热稳定性做了评估.     

Theoretical studies on a series of nitroaliphatic energetic compounds

Density functional theory calculations at the B3LYP/6-311G＊＊ level are performed to study the geometric and elec- tronic structures of a series of nitroaliphatic compounds. The heats of formation （HOF） are predicted through the designed isodesmic reactions. Thermal stabilities are evaluated via the homolytic bond dissociation energies （BDEs）. Further, the correlation is developed between impact sensitivity h50% and the ratio （BDE/E） of the weakest BDE to the total energy E containing zero point energy correction. In addition, the relative stability of the title compounds is evaluated based on the analysis of calculated Mulliken population and the energy gaps between the frontier orbitals. The calculated BDEs, HOFs, and energy gaps consistently indicate that compound 1,1,1,6,6,6-hexanitro-3-hexyne is the most unstable and the compound 3,3,4,4,-tetranitro-hexane is the most stable. These results provide basic information for the molecular design of novel high energetic density materials.     

Quantitative assessment of reparameterized PM6 (rPM6) for hydrogen abstraction reactions

In the present study, the usability of semiempirical quantum mechanical methods for calculating bond dissociation energy (BDE) was investigated systematically. Density functional theory (DFT) methods with the B3LYP and B97-1 functionals were used for comparison. We introduced a new test set for BDE, called BDE200, which covers a wide range of compounds including large aromatic compounds. The use of BDE200 test set revealed that the accuracy of the methods studied was ordered from best to worst as: B97-1 > B3LYP > rPM6 >> PM7 > PM6 > AM1 > PM3. In addition to the improved accuracy of rPM6 for predicting BDE, it was found that rPM6 can provide a quantitative correlation between BDE values and reactivity. The rPM6 calculated activation enthalpies for C–H hydroxylation catalysed by the compound I of cytochrome P450 were proportional to the calculated and experimental C–H BDE values, in line with the results of previous DFT studies. We believe that rPM6 can help develop a database, for instance, for the determination of site of metabolism.     

Marked influence of the nature of the chemical bond on CP-violating signature in molecular ions HBr(+) and HI(+)

Heavy polar molecules offer a great sensitivity to the electron electric dipole moment (EDM). To guide emerging searches for EDMs with molecular ions, we estimate the EDM-induced energy corrections for hydrogen halide ions HBr(+) and HI(+) in their respective ground X (2)Pi(3/2) states. We find that the energy corrections due to EDM for the two ions differ by an unexpectedly large factor of 15. We demonstrate that a major part of this enhancement is due to a dissimilarity in the nature of the chemical bond for the two ions: the bond that is nearly of ionic character in HBr(+) exhibits predominantly a covalent nature in HI(+). We conclude that because of this enhancement the HI(+) ion may be a potentially competitive candidate for the EDM search.     

Abnormal adsorption behavior of dimethyl disulfide on gold surfaces

Adsorption of dimethyl disulfide (DMDS) on gold colloidal nanoparticle surfaces has been examined to check its binding mechanism. Differently from previous results, DMDS molecules adsorbed on the gold surface at high concentration showed the S–S stretching band at 500 cm⁻¹ in surface-enhanced Raman scattering (SERS) spectra, which indicates the presence of intact adsorption of DMDS molecules. However, it was found that the S–S bond of disulfides was easily cleaved on the gold surface at low concentration. These behaviors were not observed for diethyl disulfide (DEDS) or diphenyl disulfide (DPDS). Our results indicate that DMDS molecules with the shortest alkyl chains on the gold surface can be inserted into self-assembled monolayers (SAMs) without the S–S bond cleavage during self-assembly due to insufficient lateral van der Waals interaction and the low adsorption activity of disulfides, whereas DEDS with longer alkyl chains or DPDS with the weak disulfide bond dissociation energy would not. These unusual DMDS adsorption behaviors were examined by scanning tunneling microscopy (STM) and X-ray photoelectron spectroscopy (XPS). We also compared the bonding dissociation energy of the S–S bonds of various disulfides by means of a density functional theory (DFT) calculation.     

Effect of Lewis base coordination on boryl radical reactivity: investigation using laser flash photolysis and kinetic ESR

The effect of Lewis base coordination on boryl radical reactivity (L→BH where L is triethylamine, 2‐picoline, 4‐dimethylaminopyridine, quinoline and diphenyl phosphine) is examined. Direct detection of the different boryl radicals, their transient absorption spectra, their interaction with double or triple bonds, oxygen, oxidizing agent, alkyl halides and their hydrogen lability have been studied using laser flash photolysis (LFP), kinetic ESR (KESR), ESR spin trapping and MO calculations. For example, a strong decrease of both the bond dissociation energy (BDE)(B? H) (33.8 kcal mol^?1) and the addition rate constant to MA (1300 10⁵ to >10⁵ M^?1 s^?1) was noted when going from the triethylamine borane to the quinoline borane complex, in line with the spin delocalization (1.04 vs. 0.19). These structures are also proposed as new highly efficient co‐initiators for the acrylate photopolymerization. Copyright © 2009 John Wiley & Sons, Ltd.