PuC和PuC2的分子结构与势能函数

采用密度泛函B3LYP方法和相对论有效原子实理论模型优化出PuC和PuC2分子稳定构型,其电子状态分别为X5Σ－和X5A2.PuC2分子为C2v构型,其∠CPuC=147.67°,平衡核间距Re=0.22819 nm, 离解能De=5.543 eV, 并计算出谐振动频率:ν1=61.736 cm－1、ν2=229.894 cm－1、ν3=305.582 cm－1.在此基础上,运用多体项展式理论方法,导出了基态PuC2分子的分析势能函数,该势能面准确地再现了PuC2分子的稳定结构,并根据势能面等值图讨论了PuC＋C反应和Pu＋C2反应的势能面静态特征.     

LaH2分子基态（C2V,X2A1）的势能函数

在QCISD水平上基于相对论紧致有效势（RCEP:Relativistic Compact Effective Poten-tial)方法优化出的LaH2分子的基态为C2v(X2A1)构型,其∠HLaH=124.4°、平衡核间距Re=2.1945A和离解能De=5.599eV,并计算出谐振频率：v1=1216.521cm-1、v2=1087.417cm-1和v3=2156.9572cm-1。在此基础上,应用多体项展式理论,导出了基态LaH2的分析势能函数,该势能表面准确地再现了LaH2(C2v)平衡结构,并根据势能函数等值图讨论了H+LaH反应和La+H2反应的势能面静态特征,结果表明在La+H2通道上存一个能垒为1.6eV的鞍点,而H+LaH反应通道是无阈能的。     

二氧化钚分子的多体展式势能函数

从导出基态PuO2分子的电子状态X5Σ g正确地判断其离解极限出发,采用MP2方法,应用相对论有效原子实模型(RECP)优化出PuO2(X5Σ g)分子稳定构型为线性OPuO(D∞h),其平衡核间距Re=0.18004nm.同时也计算出振动频率,并优化出存在亚稳态的Pu-O-O(C∞v)构型.使用多体项展式理论方法,导出了基态PuO2分子的分析势能函数.该势能表面准确地再现了O-Pu-O(D∞h)平衡结构和亚稳态的Pu-O-O(C∞v)构型.然后根据势能函数等值图讨论了O(3Pg) PuO反应的势能面静态特征.     

PdH2、YH2分子的结构与势能函数

用密度泛函理论的B3LYP方法,对钯和钇原子采用SDD收缩价基函数,氢原子采用6-311＋＋G**全电子基函数,对PdH2和YH2体系的结构进行优化计算,得到PdH2分子最稳态为C2v构型,电子组态为1A1,平衡核间距RPdH=0.1692 nm,键角∠HPdH=29.4°,离解能De=5.5212 eV,基态简正振动频率:ν1(b2)=1470.1 cm－1、ν2(a1)=1007.9 cm－1、ν3(a1)=2907.0 cm－1.YH2分子最稳态也为C2v构型,电子组态2A1,RYH=0.1962 nm,∠HYH=114.3°,De=5.6691 eV,基态简正振动频率:ν1(b2)=1457.9 cm－1、ν2(a1)=476.0 cm－1、ν3(a1)=1506.3 cm－1.由微观过程的可逆性原理分析了分子的可能离解极限.并用多体项展式理论方法分别导出基态PdH2和YH2分子的势能函数,其等值势能面图准确地再现了PdH2和YH2分子的结构特征和离解能,由此讨论了Pd ＋ H2和Y ＋ H2分子反应的势能面静态特征.     

基态Li2O＋分子的结构和势能面研究

以6-311＋＋G(d)为基函数, 采用CASSCF方法优化出Li2O＋分子的稳定构型为线形Li-O-Li (C∞V), 电子组态为2∏, 并对平衡核间距、离解能和基态简正频率进行了计算. 根据原子分子反应静力学原理, 导出了Li2O＋分子的合理的离解极限. 并运用多体展式理论方法首次导出了基态Li2O＋分子的分析势能函数, 绘出了势能等值图, 其势能等值图准确地再现了Li2O＋分子的平衡结构特征.     

OCl2分子基态势能曲线的从头算研究

采用三重激发耦合族理论(CCSD),使用多种基组对OCl2分子基态结构进行几何优化,选出最优基组6-311G(2df)对OCl2分子的离解能、谐振频率和力常数等进行了计算,其结果与实验值符合很好.在此基础上推导出OCl2分子基态的多体展式势能函数,其等值势能曲线正确反应了OCl2分子的结构特征及势阱深度,进一步讨论了Cl+OCl和O+ClCl分子反应的势能面特征.这些结果可用于微观反应动力学的研究.     

PuO3和PuO+3的分子结构与分子光谱

用相对论有效原子实势RECP和密度泛函(B3LYP, BHANDHLYP)、HF方法对PuO3的分子结构与分子光谱进行了研究.计算比较了C2v, D3h, C3v等构型以及计算方法等对PuO3分子能量和平衡结构的影响,结果表明中性的PuO3能够稳定存在,基态结构为C2v,状态为7B1 (B3LYP R1＝0.19143 nm, R2(＝R3)＝0.22057 nm, ∠OPuO＝102.2108°),比较而言PuO3分子还可能存在D3h结构的亚稳态7A2″,不存在稳定的C3v结构的PuO3分子.计算还同时首次给出了不同多重性的PuO3分子及其一价正离子PuO+3完整的能量、平衡几何结构、光谱数据、电荷布居、自旋密度、极化率与电偶极矩等系列数据.     

NO3-+Cl2→ClONO2+Cl-反应势能面和势能阱

采用密度泛函理论B3LYP方法和6-311+G(d)基组, 计算构建离子-分子气相反应NO3-+Cl2→ClONO2+Cl-的三维势能面. 三维反应势能面证明该反应没有过渡态和势能垒, 但是存在一个深达-55.0 kJ/mol的势能阱(以氯气分子和硝酸根离子相隔无穷远为参量). 在势能阱底部, 有个化合物(O2NOClCl)- 称为势阱化合物, 依赖于势能阱而稳定存在. 理论红外光谱预测低温红外光谱能检测该势阱化合物. 低温条件下, 该反应由热力学控制, 反应产物是势阱化合物(O2NOClCl)-. 当温度升高, 该反应由动力学控制, 势阱化合物(O2NOClCl)-不稳定, 发生分解反应, 重新生成NO3-和Cl2. 研究结果可用来解释低温时ClONO2与Cl-气相反应不能产生Cl2的原因.     

金属碳、卡宾阳离子[M—X]~+(M=Au,Ag,Cu;X=C,CH2)与甲烷反应机制研究

在CCSD(T)-REL//B2GP-PLYP水平下构建[Au(CH_2)]~+与甲烷反应的可靠反应势能面,分析了C—H键活化过程中的几何结构变化情况;对反应IRC路径上关键点进行自然键轨道(NBO)电荷和分子轨道分析,从理论上推定该氢转移过程属于氢负离子(H~-)转移.对[M—X]+(M=Au,Ag,Cu;X=C,CH_2)与甲烷反应进行对比,分析了甲烷作为氢供体反应过程的内在影响因素.M—X键能和反应活性中心C上直接参与反应的低能轨道对反应活性均起重要作用,两者协同调控微观反应机制.     

硼氢及客体二十面体簇合物的结构和稳定性

在(n=0、－1、－2、－3、－4)簇合物几何构型及稳定性研究的基础上,进一步对它的各种内含式和外 接式二十面体簇合物(X@B12H122－和XB12H122－,X=H0/＋、Li0/＋、He、Ne、Be0/2＋、Na＋、Mg2＋)进行了优化和 计 算.发现在内含式结构X@ B12H122－中,当X=Li＋、Be2＋、Mg2＋时,构型较稳定;在外接式结构中, XB12H122－(C3v)结构比XB12H122－(C2v)的结构稳定.通过IRC计算,确定XB12H122－(C2v)是X与B12H122－作用生成产物XB12H122－(C3v)的一种过渡态.     

Ground state potential energy curve and dissociation energy of MgH

New high-resolution visible emission spectra of the MgH molecule have been recorded with high signal-to-noise ratios using a Fourier transform spectrometer. Many bands of the A 2Pi-->X 2Sigma+ and B' 2Sigma+-->X 2Sigma+ electronic transitions of 24MgH were analyzed; the new data span the v' = 0-3 levels of the A 2Pi and B'2Sigma+ excited states and the v'=0-11 levels of the X 2Sigma+ ground electronic state. The vibration-rotation energy levels of the perturbed A 2Pi and B' 2Sigma+ states were fitted as individual term values, while those of the X 2Sigma+ ground state were fitted using the direct-potential-fit approach. A new analytic potential energy function that imposes the theoretically correct attractive potential at long-range, and a radial Hamiltonian that includes the spin-rotation interaction were employed, and a significantly improved value for the ground state dissociation energy of MgH was obtained. The v'=11 level of the X 2Sigma+ ground electronic state was found to be the highest bound vibrational level of 24MgH, lying only about 13 cm(-1) below the dissociation asymptote. The equilibrium dissociation energy for the X 2Sigma+ ground state of 24MgH has been determined to be De=11104.7+/-0.5 cm(-1) (1.37681+/-0.00006 eV), whereas the zero-point energy (v'=0) is 739.11+/-0.01 cm(-1). The zero-point dissociation energy is therefore D0=10365.6+/-0.5 cm(-1) (1.28517+/-0.00006 eV). The uncertainty in the new experimental dissociation energy of MgH is more than 2 orders of magnitude smaller than that for the best value available in the literature. MgH is now the only hydride molecule other than H2 itself for which all bound vibrational levels of the ground electronic state are observed experimentally and for which the dissociation energy is determined with subwavenumber accuracy.     

OUH体系的结构和分析势能函数

采用密度泛涵B3LYP方法优化出了OUH分子的各种结构，确定了最稳定构型和离解能，以及它们的谐性力常数，并导出双原子分子UH,UO的Murrell-Sorbie势能函数及其光谱数据。采用多体项展式方法，导出OUH(X^4A')基态分子的分析势能函数，获得OUH(X^4A')体系的势能面，考察了这个势能函数的基本性质，正确地复现出OUH分子的平衡结构特征，结果表明：U+OH,O+UH,H+UO的反应均为无阈能的放热能反应。为进一步探讨OUH体系的反应动力学过程打下了基础。     

Analytical Potential Energy Function for the Ground State(C2V,A1)of LaH2

The present work has derived analytical potential energy function for the ground state(C2V,A1) of LaH2.In the first place,the electronic state and it’s reasonable dissociation limits are correctly determined based on Atomic and Molecular Reaction Statics(AMRS),and then,using the relativisti ccompact effective potential(RCEP)for La,the equilibrium geometry,dissociation energy and harmonic frequencies for LaH2 have been calculated by ab initio method,the reasults show that RLaH=2.1945?,∠HLaH=124.4°and De=5.599eV,and v1,v2 and v3 are 1216.521,1087.417 and 2156.957cm-1,recpectively.Molecular reaction kinetic of La+H2 and La+H based on this potential energy function is under the way.     

PuN和PuN_2基态分子的结构与势能函数

用相对论有效原子实势和密度泛函理论方法对PuN和PuN_2分子的结构进行优化 ，得到了其平衡几何构型和谐振频率。采用最小二乘法拟合出PuN基态分子的 Murrell-Sorbie解析势能函数，在此基础上推导出光谱数据和力常数，并用多体展 式理论导出PuN_2基态分子的解析势能函数，正确地反映了其平衡构型特性。     

AsH3 ultraviolet photochemistry: an ab initio view

Multireference configuration interaction calculations have been carried out for low-lying electronic states of AsH(3). Bending potentials for the nine lowest states of AsH(3) are obtained in C(3v) symmetry for As-H distances fixed at the ground state equilibrium value of 2.850 a(0), as well as for the minimum energy path constrained to R(1) = R(2) = R(3). The calculated equilibrium geometry and bond energy for the X (1)A(1) ground state agree very well with the previous experimental and theoretical data. It is shown that the lowest excited singlet state belongs to the (1)A(1) symmetry (in C(3v)), in contradiction to the previous calculations. This state is characterized by a planar equilibrium geometry. Asymmetric stretch potential energy surface (PES) cuts along the H(2)As-H recoil coordinate (at R(1) = R(2) = 2.850 a(0), θ = 123.9° and 90°) for numerous excited states and two-dimensional PESs for the X and ? states up to the dissociation limits are obtained for the first time. The ? (1)A(1), B(1)E-X (1)A(1) transition moments are calculated as well and used together with the PES data for the analysis of possible photodecay channels of arsine in its first absorption band.     

Low-lying electronic states and Cl-loss photodissociation of the C2H3Cl+ ion studied using multiconfiguration second-order perturbation theory

We studied the 1(2)A' '(X2A' '), 1(2)A' (A2A'), 2(2)A' ' (B2A' '), and 2(2)A' (C2A') states of the C2H3Cl+ ion using the complete active space self-consistent field (CASSCF) and multiconfiguration second-order perturbation theory (CASPT2) methods. For the four ionic states, we calculated the equilibrium geometries, adiabatic (T0) and vertical (Tv) excitation energies, and relative energies (Tv') at the geometry of the molecule at the CASPT2 level and the Cl-loss dissociation potential energy curves (PECs) at the CASPT2//CASSCF level. The computed oscillator strength f value for the X2A' ' <-- A2A' transition is very small, which is in line with the experimental fact that the A state has a long lifetime. The CASPT2 geometry and T0 value for the A2A' state are in good agreement with experiment. The CASPT2 Tv' values for the A2A', B2A' ', and C2A' states are in good agreement with experiment. The Cl-loss PEC calculations predict that the X2A' ', A2A', and C2A' states correlate to C2H3+ (XA1) and the BA' ' state to C2H3+ (1A' ') (the B2A' ' and C2A' PECs cross at R(C-Cl) approximately 2.24 A). Our calculations indicate that at 357 nm the X2A' ' state can undergo a transition to B2A' ' followed by a predissociation of B2A' ' by the repulsive C2A' state (via the B/C crossing), leading to C2H3+ (X1A1), and therefore confirm the experimentally proposed pathway for the photodissociation of X2A' ' at 357 nm. Our CASPT2 D0 calculations support the experimental fact that the X state does not undergo dissociation in the visible spectral region and imply that a direct dissociation of the A state to C2H3+ (X1A1) is energetically feasible.