共查询到17条相似文献,搜索用时 46 毫秒
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用密度泛函理论方法 (B3LYP) ,在 6 311+G(d ,p)水平上对硝酸溴与三重态氧原子的反应进行了研究 ,计算了反应中各驻点物种的平衡构型、振动频率、总能量和零点能 (ZPE) .对计算得到各可能反应途径的过渡态经内禀反应坐标分析加以了证实 ,对反应途径中的键长和能量的变化作了IRC解析 .在B3LYP优化的基础上利用了耦合簇理论方法 (CCSD(T) )在 6 311+G(d ,p)水平上对各驻点物种的单点能进行了修正 .研究表明 ,存在三种可能的反应途径 ,其产物分别为 :cis BrONO和 3 O2 、trans BrONO和 3 O2 以及BrOO和NO2 .其中第三个通道由于活化能垒较低 ,是主要反应 . 相似文献
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用密度泛函方法在B3LYP/6-311G(d, p)水平上研究了VO2+氧化CH3CHO的反应机理。计算结果表明VO2+氧化CH3CHO的优势反应路径为:首先,CH3CHO与1VO2+ 或 3VO2+通过无能垒的放热反应形成配合物;然后,VO2+的O原子进攻CH3CHO分子中-CHO的C原子,形成四元环中间体;最后,通过H迁移反应形成1VO+ 或 3VO+ 与CH3COOH的配合物。 相似文献
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在G2 (CC ,MP2 )理论水平上研究了C2 (a3 Πu)自由基与NO分子的反应 .计算了反应体系最低二重态势能面上各驻点的构型参数、振动频率和能量 ,揭示了此反应存在两种反应机理 :由NO中的O原子进攻C2 自由基形成CCON中间体的CCON机理和NO中的N进攻C2 自由基形成CCNO中间体的CCNO机理 ,分析了对应与这两种反应机理的五个可能的反应通道 ,得出了由NO中的N原子进攻3 C2 自由基 ,生成中间体CCNO自由基 ,最终得到产物CN +CO的通道是最有利的通道 . 相似文献
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采用密度泛函理论B3LYP方法研究了NH3与MH(M=Li,Na)的放氢反应机理,在6-311G(2d,2p)基组水平上对反应物、中间体、过渡态及产物进行了全几何参数优化,频率分析和内禀反应坐标(IRC)计算证实了中间体和过渡态的正确性和相互连接关系。计算结果表明,NH3与MH(M=Li,Na)的反应均为单通道的氢取代反应,反应生成LiNH2(NaNH2)与H2。 相似文献
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采用密度泛函理论B3LYP方法研究了NH3与MH(M=Li,Na)的放氢反应机理.在6-311G(2d.2p)基组水平上对反应物、中间体、过渡态及产物进行了全几何参数优化.频率分析和内禀反应坐标(IRC)计算证实了中间体和过渡态的正确性和相互连接关系.计算结果表明,NH2与MH(M=Li,Na)的反应均为单通道的氢取代反应,反应生成LiNH2(NaNH2)与H2. 相似文献
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为揭示8-羟基喹啉树脂对Cu~(2+)高选择性吸附的本质原因,采用密度泛函B3LYP方法系统研究8-羟基喹啉与Cu~(2+)配位作用方式与作用特点.能量计算结果表明去质子的8-羟基喹啉阴离子与Cu~(2+)作用最强,相互作用能最高,其次是反式8-羟基喹啉,而顺式配体作用最弱;同时,金属离子与一个配体配位所得产物LCu~(2+)与配体配位能力显著降低.轨道分析表明金属离子主要以3d轨道与配体的2p轨道重叠,且以σ成键作用为主.静电势计算结果显示去质子的8-羟基喹啉阴离子静电势最负,导致配位能力明显高于中性配体;且金属离子与配体配位后,正的静电势显著降低,由此导致与配体配位能力减弱. 相似文献
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董肖 《原子与分子物理学报》2017,34(6)
采用密度泛函理论B3LYP方法研究了NH3与MgH2的放氢反应机理,在6-311G(d, p)基组水平上对反应物、中间体、过渡态及产物进行了全几何参数优化。频率分析和内禀反应坐标(IRC)计算证实了中间体和过渡态的正确性和相互连接关系。计算结果表明。反应分两步单通道的氢取代过程,且反应过程相类似,反应生成Mg(NH2)2和2H2。两步氢取代反应所释放的H2中两个H原子分别来源于NH3和MgH2。反应脱氢的关键在于克服N—H键断裂所需能量。 相似文献
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CH2Cl与OH自由基反应机理的理论研究 总被引:4,自引:0,他引:4
用量子化学从头算方法对CH2 Cl与OH自由基反应生成HCCl+H2 O、HCOCl+H2 和H2 CO +HCl的机理进行了研究 .在UMP2 (FC) / 6 311++G 水平上计算出了各物种的优化构型、振动频率 ;并在Gaussian 3(G3)水平上计算了他们的零点能 (ZPE)、相对能量及总能量 .结果表明 ,CH2 Cl和OH自由基反应首先经无垒过程生成一个富能中间体CH2 ClOH ,中间体再经过一系列原子转移、基团旋转和键断裂分别生成产物HCCl+H2 O、HCOCl+H2 和H2 CO +HCl;三者均为放热反应 ,放热量分别为 72 .81、338.5 4和 35 4 .0 8kJ/mol;生成H2 CO +HCl放出的热量比生成HCCl+H2 O放出的热量多 2 81.2 7kJ/mol,与实验结果吻合 . 相似文献
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Esko Taskinen 《Journal of Physical Organic Chemistry》2009,22(8):761-768
G3(MP2)//B3LYP calculations have been carried out on trans‐ and cis‐decalin, and their mono‐, di‐, tri‐, and tetraoxa‐analogs. The main purpose of the work was to obtain enthalpies of formation for these compounds, and to study the relative stabilities of the cis–trans and positional isomers of the various (poly)oxadecalins. Comparison of the computational enthalpies of formation with the respective experimental ones, known only for the decalins and 1,3,5,7‐tetraoxadecalins, shows that in both cases the computational values are more negative than the experimental ones, the deviations being −5 to −7 kJ mol−1 for the decalins and −12 to −17 kJ mol−1 for the 1,3,5,7‐tetraoxadecalins. The respective computational enthalpies of cis–trans isomerization, however, are in excellent to satisfactory agreement with the experimental data. The cis–trans enthalpy differences vary from +11.0 kJ mol−1 for decalin to −15.4 kJ mol−1 for 1,4,5,8‐tetraoxadecalin. Low relative enthalpy values were also calculated for the cis isomers of 1,8‐dioxadecalin (−3.7 kJ mol−1), 1,3,6‐trioxadecalin (−4.6 kJ mol−1), 1,3,8‐trioxadecalin (−9.7 kJ mol−1), 1,4,5‐ trioxadecalin (−5.6 kJ mol−1), 1,3,5,8‐tetraoxadecalin (−7.3 kJ mol−1), and 1,3,6,8‐tetraoxadecalin (−14.5 kJ mol−1). Copyright © 2009 John Wiley & Sons, Ltd. 相似文献
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Esko Taskinen 《Journal of Physical Organic Chemistry》2009,22(1):42-51
The gas‐phase enthalpies of formation at 298.15 K of a number of acyclic and cyclic olefinic ethers (mainly α,β‐unsaturated ethers), together with those of a few cyclic mono‐ and dienes, have been estimated by G3(MP2)//B3LYP calculations. In most cases, the computational and experimental data (if available) are in good mutual agreement. Whenever significant deviations between the experimental and computational data were found, the experimental enthalpies of formation arise from a single data source, and it appears that small experimental errors are embedded therein. A marked error was found in the experimental enthalpy of formation of 2‐chloroethyl ethyl ether, used in this work as a reagent for estimation of the enthalpy of formation of 2‐chloroethyl vinyl ether by an isodesmic reaction. Moreover, significant errors were also found in the literature values for the computational (B3LYP/6‐311G**) enthalpies of formation of several Me‐substituted derivatives of methyl vinyl ether. The present computational method, besides providing acceptable enthalpies of formation for unsaturated ethers, was also found to give accurate ΔfH(g) values for cyclic mono‐ and dienes. Thus, the G3(MP2)//B3LYP computational method proved to be a valuable tool for investigating the energetics of olefinic ethers and hydrocarbons. Copyright © 2008 John Wiley & Sons, Ltd. 相似文献
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Esko Taskinen 《Journal of Physical Organic Chemistry》2010,23(2):105-114
A computational study of the stable conformations and gas‐phase enthalpies of formation at 25 °C of the title compounds has been carried out by G3(MP2)//B3LYP calculations. The work stems from our early observations on the thermodynamic and NMR spectroscopic properties of 2‐methylenetetrahydropyran and related compounds suggesting a dominating chair conformation, with poor p–π overlap in the O CC moiety, for these compounds. Besides computational verification of the chair conformation of 2‐methylenetetrahydropyran, the work was extended to find out the stable conformations of a number of other related compounds and to evaluate the relative stabilities of the various conformers. Another important goal of the work was the estimation of the gas‐phase enthalpies of formation of the present compounds, for which such literature data are scarce. A significant error in the literature value of the enthalpy of formation of methylenecyclohexane was found. Finally, the relative enthalpy levels of the isomeric compounds of this work are discussed. The high thermodynamic stability of the compounds containing an ester functional group, O CO, relative to the stability of isomeric compounds with an O CC moiety in place of the ester function, is demonstrated. Copyright © 2009 John Wiley & Sons, Ltd. 相似文献
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Jose R Mora María Tosta Rosa M. Domínguez Armando Herize Jenny Barroso Tania Córdova Gabriel Chuchani 《Journal of Physical Organic Chemistry》2007,20(12):1021-1031
The gas‐phase elimination kinetics of the title compounds were carried out in a static reaction system and seasoned with allyl bromide. The working temperature and pressure ranges were 200–280 °C and 22–201.5 Torr, respectively. The reactions are homogeneous, unimolecular, and follow a first‐order rate law. These substrates produce isobutene and corresponding carbamic acid in the rate‐determining step. The unstable carbamic acid intermediate rapidly decarboxylates through a four‐membered cyclic transition state (TS) to give the corresponding organic nitrogen compound. The temperature dependence of the rate coefficients is expressed by the following Arrhenius equations: for tert‐butyl carbamate logk1 (s?1) = (13.02 ± 0.46) – (161.6 ± 4.7) kJ/mol(2.303 RT)?1, for tert‐butyl N‐hydroxycarbamate logk1 (s?1) = (12.52 ± 0.11) – (147.8 ± 1.1) kJ/mol(2.303 RT)?1, and for 1‐(tert‐butoxycarbonyl)‐imidazole logk1 (s?1) = (11.63 ± 0.21)–(134.9 ± 2.0) kJ/mol(2.303 RT)?1. Theoretical studies of these elimination were performed at Møller–Plesset MP2/6‐31G and DFT B3LYP/6‐31G(d), B3LYP/6‐31G(d,p) levels of theory. The calculated bond orders, NBO charges, and synchronicity (Sy) indicate that these reactions are concerted, slightly asynchronous, and proceed through a six‐membered cyclic TS type. Results for estimated kinetic and thermodynamic parameters are discussed in terms of the proposed reaction mechanism and TS structure. Copyright © 2007 John Wiley & Sons, Ltd. 相似文献
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Esko Taskinen 《Journal of Physical Organic Chemistry》2009,22(6):632-642
A computational method for estimation of the gas‐phase enthalpies of formation of aromatic hydrocarbons and ethers has been developed. The method is based on high‐level G3(MP2)//B3LYP calculations, atomization reactions, and structure‐dependent correction terms. By this method, enthalpies of formation ΔfHm°(g, 298.15 K) of 86 aromatic compounds were evaluated. The calculated enthalpies of formation raise questions of the reliability of several experimental enthalpies of formation reported in the literature. As an application of the computational enthalpies of formation, reaction enthalpies for several types of isomerization reactions of aromatic compounds were calculated. In cases in which experimental reaction enthalpies were available for comparison, the agreement between the computational and experimental data proved to be excellent. Copyright © 2008 John Wiley & Sons, Ltd. 相似文献
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Kenta Ichihara Izuru Kawamura Kazuhisa Sakakibara Yujirou Ikejiri Shunichi Himori 《Journal of Physical Organic Chemistry》2019,32(6)
The inhibitory regulation mechanism towards the methyl 2‐methylpropionate radical (a model of the poly(methyl methacrylate) [MMA] propagation radical) by naphthoquinone derivatives in radical polymerization in an aerobic or anaerobic atmosphere has been studied experimentally by liquid chromatography, mass spectrometry, and nuclear magnetic resonance (NMR) measurements of the isolated reaction products, which were purified by preparative thin‐layer chromatography. In addition, we have carried out a theoretical analysis (DFT B3LYP/6‐311+G**) of the frontier orbital interactions and reaction Gibbs free energies (ΔG) for the formation of the relevant reaction products and intermediates and activation free energies (ΔG#) and frontier electron densities (fA(R)) of the radical reactions. Consequently, the reaction mechanism where quinone products are formed by the attack of propagation radicals at the C2 carbon next to the carbonyl group in naphthoquinone was rationalized. 相似文献