质子化丙酮分子团簇的结构和振动光谱

The stable structures and vibrational spectra of protonated acetone molecule clusters with different sizes （CH3COCH3）nH +（n=1-7）are calculated at the 6-31G（d）level by means of density functional theory （B3LYP）quantum chemical calculations. The corresponding energies are analyzed at the level B3LYP/6-311+G（3df,2p）in order to obtain more accurate results. The proton affinity of neutral cyclic acetone molecule clusters increases with the increasing of cluster size. The calculated results show that the protonated acetone clusters have certain growth regularity with forming a solvation shell at the beginning and then new added acetone molecule attacking different active sites including the middle carbon atoms and the different methyl in solvation shell. The IR spectra of the protonated clusters are more complicate than that of neutral ones. The strongest peaks result from the movement of the proton between the two oxygen atoms in solvant shell apart from the case of n=1. Carbonyl stretching vibraional peaks split into the more and more and in general the corresponding intensities are weakened due to the protonation with the increasing of cluster size.     

CnP-4(n=1～7)团簇结构与能量的密度泛函研究

摘要使用分子图形软件设计出多种CnP4^-(n=1-7)的结构模型,并进行B3LYP密度泛函几何构型优化和振动频率计算．最稳定的CP4^-和C2P3^-都是平面环状结构．最稳定的CnP4^-(n=3,5,7)结构在直碳链的一端连接1个磷原子且另一端是P3C的四元环的平面结构．最稳定的CnP4^-(n=4,6)结构在直碳链的一端连接1个磷原子且另一端是P3的三元环的锄状结构．直碳链可与平面环的磷原子生成大π键．大多数构型是由C2,C3,C4子结构以环状或链状方式组成的．碳原子与磷原子以交替方式排列的结构数量少、能量高．     

C_nP_4~4(n=1～7)团簇结构与能量的密度泛函研究

使用分子图形软件设计出多种CnP-4(n =1～ 7)的结构模型 ,并进行B3LYP密度泛函几何构型优化和振动频率计算 .最稳定的CP-4和C2 P-3 都是平面环状结构 .最稳定的CnP-4(n =3 ,5 ,7)结构在直碳链的一端连接 1个磷原子且另一端是P3 C的四元环的平面结构 .最稳定的CnP-4(n =4,6)结构在直碳链的一端连接 1个磷原子且另一端是P3 的三元环的锄状结构 .直碳链可与平面环的磷原子生成大π键 .大多数构型是由C2 ,C3 ,C4子结构以环状或链状方式组成的 .碳原子与磷原子以交替方式排列的结构数量少、能量高 .     

原子团簇Ge11同分异体的密度泛函研究

用分子图形软件设计出多种Ge_11原子团簇模型,使用B3LYP密度泛函方法进行几何构型优化和振动频率计算,比较了14种同分异构体的总能量,得到了新的基态构型。锗原子团簇的大部分原子以三、四、五和六配位成键。在Ge11原子团簇中,双角反四棱柱衍生出来的构型能量较低,它是设计大分子锗原子团簇初始模型的重要结构单元。由三棱柱演变的构型能量居中。带心结构和共边构型带有高配位原子,其总能量较高,是不稳定的结构。     

一些密度泛函方法预测电子亲和势

选取了杂化泛函B3LYP, B3PW91, O3LYP, PBE0, 以及与之相对应的GGA泛函BLYP, BPW91, OLYP和PBE, 还选取了能更好地兼顾强相互作用和弱相互作用的X3LYP泛函和在预测NMR的化学位移有较好表现的OPBE泛函, 以及两种meta-GGA泛函VSXC和TPSS, 共12种泛函, 详细地考察了这些泛函在预测EA方面的准确性.     

Pdn(n=2～13)团簇的密度泛函理论研究

采用密度泛函理论B3LYP方法计算并讨论钯原子团簇Pdn(n=2～13)结构模型.通过对钯原子团簇进行几何构型优化和振动频率计算,找出团簇总能量最低的同分异构体.由于Jahn-Teller效应的存在,团簇的最稳定结构采取对称性较低的几何构型.在钯原子数相同时,往往存在多个能量极为相近的稳定构型.单位原子平均静态极化率呈奇偶变化.     

硝酸溴与三重态氧原子反应机理的密度泛函研究

The theoretic study of reaction between BrONO2 and O(3P) is reported by using the molecular orbital ab initio and density function theory (DFT). Equilibrium structural parameters, harmonic vibrational frequencies, total energy and zero energy of reactants, transition states, inter mediates and products during reactions are computed by B3LYP theory level with the basis set 6-311+G(d,p). The transition states and inter mediates of the reaction are verified by frequency analysis, and the relation ship of reactants, transition states, intermediates and products is affirmed by Intrinsic Reaction Coordinate(IRC) calculation. The activation energy of the reaction has also been calculated. Based on the optimized structure, the single point energy of all species is obtained by CCSD(T) with the basis set 6-311+G(d,p). The results show that there are three exothermic channels and their corresponding products are: cis-Br ONO + 3O2, trans-BrONO + 3O2 and BrOO+NO2. The activation energy of three channels is 91.58, 101.25, 51.17kJ/mol under B3LYP and 141.19, 148.39, 103.21 kJ/molunder CCSD(T) theory level. The third channel is the dominant channel.     

Pd6簇与H2分子相互作用的密度泛函理论研究

通过相对论有效核势密度泛函理论计算,优化了Pd6(H)2和Pd6(H)4等簇的平衡几何结构,预测了氢分子在Pd6簇表面上的吸附行为与活化解离性质.计算结果表明,单态的Pd6簇可以活化两个氢分子;第一个H2和第二个H2吸附解离过程速率决定步骤的能垒分别是66.4和24.5kJ/mol、在形成的分子氢配合物Pd6(H2)和Pd（H)2H2中,H2主要作为给电子配体.在最稳定的二氢簇合物Pd6(H)2中,H倾向与3个Pd相互作用,形成面位氢的多核成键吸附方式.     

水团簇构象稳定性起源和本质的密度泛函理论与量子分子动力学研究

寻找确定分子体系构象稳定性的关键因素是至关重要的, 但即使对最简单的分子, 其稳定性的起源和本质仍存在很大的争议. 本文以水团簇为例, 采用量子分子动力学产生185个八聚水分子团簇模型, 并运用基于密度泛函理论的两个能量分解方法寻找其稳定性的决定因素. 我们发现不同水团簇的稳定性与其立体排斥能和交换相关能成良好的线性关系.本文还采用双变量模型模拟水团簇的稳定性, 取得了更好的结果(相关系数大于0.99). 本工作对揭示包括水分子团簇在内的通过弱相互作用组成的分子络合物的稳定性起源和本质提供了有益启示.     

吡咯和呋喃气相质子化过程的密度泛函理论研究

Density functional theory and ab initio calculations have been used to determine structures and stabilities of the protonated aromatics species AH^＋ and AH2^2＋ （A=pyrrole, furan）. Possible mechanisms and relative energetics for protonation of pyrrole and furan by H3O^＋ and AH^＋ in the gas phase have been explored. Calculations show that the Cα-protonated species was the most stable structure for AH^＋, and the protonated AH^＋ might accommodate the second proton to yield AH2^2＋ if the free proton was available. The gas-phase H3O^＋ could protonate pyrrole and furan with significant exothermiCity and almost without barrier. The proton transfer from AH4^＋ to pyrrole and furan has a barrier ranging from 33.5 to 39.3 kJ/mol in the gas phase.     

(XNR)_4立方簇合物结构与稳定性的DFT研究

用密度泛函理论(DFT),在B3LYP/CEP-121G水平上,首次对(XNR)_4 [X = C, Si,Ge,Sn,Pb;R = H,CH_3,C(CH_3)_3,Si(CH_3)_3,C_6H_5]立方簇合物的 几何构型、电子结构、振动光谱和化学键性质进行了研究,并对其分子碎片(XNR) _2进行了相同方法的优化计算。结果表明,(CNR)_4对应原5种结构均不能稳定存在 。(XNH)_4对应原5种结构稳定性较低。对于同一取代基R,簇合物的稳定性大小顺 序为：(PbNR)_4>(SnNR)_4>(GeNR)_4>(SiNR)_4>(CNR)_4。     

Ru_n(n=2~8)金属团簇的结构和能级分布的DFT研究

采用密度泛函理论中的广义梯度近似(DFT/GGA)方法,对Run团簇(n = 2~8)的几何结构与稳定性、束缚能以及能级分布的关系进行了研究,并分析了随着团簇原子数的增加,团簇的几何结构和费米能级的变化,结果表明:Ru簇的几何结构在4个原子以前是平面结构,而从5个原子开始为空间立体的稳定结构,束缚能随金属原子数的增加而增加。能级结构呈明显的分立特征,费米能级随原子个数的增加而增加,但从Ru7开始又有所降低,且团簇的能量间隙逐渐减小,趋近于大块金属的能级特征。     

AlmN(m=2～9)团簇结构与稳定性的DFT研究

用密度泛涵理论(DFT)的B3LYP方法在6-31G*水平上对AlmN(m =2～9)团簇的几何构型、电子结构、振动频率等性质进行了理论研究.给出了以Alm团簇作为设计AlmN类结构的母体，考虑在不同位置上结合N原子的结构，可以较快找到AlmN类团簇基态结构的一种方法.通过对基态结构的几何参数分析发现， m＜4的结构只存在Al－N键； m≥4的结构, Al－N键和Al－Al键共存.对基态结构的绝热电离能讨论结果表明，只存在Al－N键的Al2N和Al3N团簇较稳定.     

AlmN2 (m=1～8)团簇结构与稳定性的DFT研究

用密度泛函理论(DFT)的B3LYP方法，在6-31G*水平上对AlmN2(m=1～8) 团簇的几何构型、电子结构、振动频率和热力学性质进行了理论研究. 结果表明， AlmN2团簇的基态结构有两种基本构型， m≤2的结构是以N－N键为核心周围与Al原子相配位形成的; m >2的结构是由两个AlnN（n< m）分子碎片通过共用Al原子或Al－Al键相互结合形成的，这为较快找到AlmN2团簇基态结构提供了一条有效途径. 通过对基态结构能量二次差分的讨论，得到了m为偶数的AlmN2团簇比m为奇数的稳定.     

Structure and Stability of P1Om Cages and Their Highly Charged Protonated Clusters P1OmHn^（n＋）：Insight from Density Functional Calculations

Density functional calculations are used to determine structural and electronic properties of P4,P4O6,P4O10,P20O30 and P20O50 clusters and their protonated derivatives.These oxygen-rich phosphorus oxides are predicted to have relatively high stabilities with respect to their components P4 and O2,and their unsaturated P and end-on O atoms as the proton acceptor can accommodate multiple protons to generate highly positively charged cationic clusters,such as P20O30H1010+.Calculations indicate that P4O6 and P20O30 have higher reactivity toward the proton capture than the P4,P4O10 and P20O50 clusters,and the most stable protonated clusters among these different series of cationic clusters are P4H22+,P4O6H22+,P4O10H33+,P20O30H44+ and P20O50H44+,respectively.The cage skeleton of the phosphorus oxide clusters shows high stability for the consecutive protonation,and the unsymmetrical stretching of the skeletal P-O bond and the wagging mode of P-H coupled with the P-O bond stretching have strong adsorptions.These computational findings are useful for further experimental and theoretical studies of novel phosphorus oxide clusters and their highly positively charged derivatives.     

DFT Study on the Electronic and Structural Properties of ReO5-/0 Clusters

The electronic and structural properties of ReO5 and ReO5 clusters are investigated using density functional theory (DFT) calculations. The lowest energy structures for both the anionic and neutral clusters are determined, and the corresponding photoelectron spectrum is simulated. Our results show that ReO5 can be described as an unusual peroxo molecule, Re(O)3(η2-O2) , while ReO5 is found to be exhibiting the O2 o radical character. Molecular orbital analyses and spin density analyses are performed to elucidate the chemical bonding and the electronic and structural properties in these two rhenium oxide clusters.     

DFT Calculation of Glycine with Methanols Clusters

Density functional theory （DFT） calculations are reported for the structures of neutral and zwitterionic glycine-（CHaOH）n where n=1-6. Initial geometries of the clusters of neutral and zwitterionic glycine with 1-6 methanol molecules are fully optimized at B3LYP/6-31＋G^＊ level of theory. The lowest energy configurations are located and their hydrogen bond structures are analyzed. Theoretical prediction reveals that the methanols prefer to locate near the carboxylic acid group for the small clusters （n_〈3） with the neutral form while the configurations with the methanols bridging the acid and the amino group are favorite in the zwitterionic form clusters. When the number of the methanol molecules in the clusters reaches five and six, the two forms tend to be isoenergetic.     

Altering Charges on Heterobimetallic Transition-Metal Carbonyl Clusters

The homoleptic group 5 carbonylates [M(CO)₆]⁻ (M=Nb, Ta) serve as ligands in carbonyl-terminated heterobimetallic Ag_mM_n clusters containing 3 to 11 metal atoms. Based on our serendipitous [Ag₆{Nb(CO)₆}₄]²⁺ ( 4 a ²⁺) precedent, we established access to such Ag_mM_n clusters of the composition [Ag_m{M(CO)₆}_n]^x (M=Nb, Ta; m=1, 2, 6; n=2, 3, 4, 5; x=1−, 1+, 2+). Salts of those molecular cluster ions were synthesized by the reaction of [NEt₄][M(CO)₆] and Ag[Al(OR^F)₄] (R^F=C(CF₃)₃) in the correct stoichiometry in 1,2,3,4-tetrafluorobenzene at −35 °C. The solid-state structures were determined by single-crystal X-ray diffraction methods and, owing to the thermal instability of the clusters, a limited scope of spectroscopic methods. In addition, DFT-based AIM calculations were performed to provide an understanding of the bonding within these clusters. Apparently, the clusters 3 ⁺ (m=6, n=5) and 4 ²⁺ (m=6, n=4) are superatom complexes with trigonal-prismatic or octahedral Ag₆ superatom cores. The [M(CO)₆]⁻ ions then bind through three CO units as tridentate chelate ligands to the superatom core, giving overall structures related to tetrahedral AX₄ ( 4 ²⁺) or trigonal bipyramidal AX₅ molecules ( 3 ⁺).     

TDDFT Studies of Electronic Structure and First Hyperpolarizability of Tetra-nuclear Cubane-like Transition Metal Clusters

A series of tri-nuclear transition metal clusters with incomplete cubane-like configurations have been studied by TDDFT method. The calculations show that they have enormously large second-order polarizabilities () and are potential nonlinear optical materials for infrared double frequency conversion1. In this paper some tetra-nuclear transition metal clusters with cubane-like configurations, MCu3X4 (PPh3)3 (M=W, Mo; X= S, O, Cl, Se, Br), were studied by TDDFT method for a reference…