苯并菲衍生物盘状液晶分子的非线性光学与热力学性质

采用密度泛函理论在B3LYP/6-31G**理论水平,计算并研究苯丙炔（烯）酸酯苯并菲盘状液晶分子的偶极矩、非线性光学性质、电子光谱和热力学性质.结果显示,该分子表现出良好的非线性光学性质,其二阶和三阶非线性光学系数分别为10⁴和10⁶a.u.数量级.其最低能量跃迁吸收波长分别为460和474nm,对应π到π*的电子跃迁.在温度298.15 K时,苯丙炔酸酯和苯丙烯酸酯苯并菲衍生物分子的标准摩尔生成焓分别为-7317.06和-1052.68 kJ·mo1^-1,标准摩尔生成自由能分别为-6186.91和117.00 kJ·mol ^-1.     

含亚胺和胆甾烯基液晶分子的电子光谱和二阶非线性光学性质

在B3LYP/6-31G水平上研究了含亚胺和胆甾烯基不对称液晶二聚体的几何结构、电子吸收光谱和二阶非线性光学性质。研究结果表明,该类化合物分子的最强电子跃迁主要源于分子HOMO→LUMO的π→π*跃迁,对应的最大吸收波长位于337~349 nm范围,属于近紫外区。减小分子的中心柔性间隔基的长度和提高端接基的吸电子能力可以增强该类液晶的二阶非光学性质。     

AlO2和Al2O分子的结构与解析势能函数

运用密度泛函理论的B3LYP方法在6-311++G^**水平上,对AlO₂,Al₂O分子的结构进行了优化计算,得到AlO₂,Al₂O分子的稳定结构都为D_∞h构型.　AlO₂电子态为X²Π_u,平衡核间距R_Al-O关键词： 2')" href="#">AlO₂ 2O')" href="#">Al₂O Murrell-Sorbie函数 多体项展式理论     

CuTe,Cu2和Cu2Te的结构与势能函数

在Cu和Te的RECP(Relativistic Effective Core Potential)近似下,运用B3LYP方法,在LANL2DZ基组水平上对CuTe,Cu₂和Cu₂Te分子体系的结构进行优化计算.结果表明,CuTe和Cu₂分子的基电子状态分别为²Π和¹∑_g⁺,Cu₂Te分子的基态为单重态的C_2V构型,其电子状态为¹A₁.同时还计算了Cu₂Te分子基态的离解能、力常数和振动频率.采用最小二乘法拟合出CuTe和Cu₂分子Murrell-Sorbie势能函数参数.在此基础上,运用多体展式理论方法导出Cu₂Te分子基态势能函数的解析表达式,其势能面准确复现了平衡态的结构特征.     

甲烷在外场作用下的光激发特性研究

采用密度泛函B3LYP和组态相互作用方法在6-311++G^**水平上计算了甲烷从基 态到前六个激发态的跃迁波长，振子强度，自发辐射系数A_n0和吸收系数B _0n（ n=1—6）.同时研究了外电场对甲烷分子的激发态的影响规律.结果表明，随外电场强度增大 ，系统总能量变化较小，同时最高占据轨道HOMO与最低空轨道LUMO的能隙gaps变小，费米能 级Fermi levels略有下降.甲烷基态（X～^lＡ_l）在外场作用下，易 于向高激发态产生跃迁. 关键词： 4')" href="#">CH₄ 激发态 外电场     

对巯基苯胺分子表面增强拉曼光谱的密度泛函理论研究

采用密度泛函理论(density functional theory,DFT),在B3LYP/6-31++-G** (C,H,N,S)/LANL2DZ(Ag)水平上,对对巯基苯胺(p-aminothiophenol,PATP)分子进行了几何结构优化,计算了 PATP的常规拉曼散射(normal Raman scatte...     

电荷对Cu2n±(n=0,1,2)分子离子的势能函数和能级的影响

用密度泛函B3LYP /LANL2DZ方法对Cu₂^n±(n=0,1,2)分子离子进行理论研究.结果表明：Cu₂，Cu⁺₂，Cu^-₂，Cu₂^2-能稳定存在，基电子状态分别是：¹Σg^＋（Cu₂），²Σg（Cu_{2关键词： 分子离子 密度泛函 势能函数 能级}     

二聚物X2 和 XK (X= Mn, Fe, Co, Ni, Cu)吸附NO的密度泛函理论研究

为有效降低NO对环境以及人体造成的危害,着重从催化剂入手,研究过渡金属Mn₂, Fe₂, Co₂, Ni₂, Cu₂及K掺杂的MnK, FeK, CoK, NiK, CuK的二聚物对NO的吸附性能.采用密度泛函理论的B3LYP, B3PW91, B3P86, B1B95以及PBE1PBE方法结合LANL2DZ, SDD, CEP-121G基组,采用B3LYP, B3PW91, B3P86以及PBE1PBE方法结合6-31++G(3df, 3pd), 6-311++G(3df, 3pd), 6-31G(d, p), LANL2DZ, SDD基组分别系统研究了X₂和XK (X=Mn, Fe, Co, Ni, Cu)团簇和NO的几何结构,计算出其键长,频率,离解能,再与对应的实验值进行对比.进一步采用PBE1PBE方法结合LANL2DZ和6-31G(d, p)基组研究了X₂NO和KXNO团簇的几何结构,计算出各原子间键长和吸附能.结果表明,...     

含酯基和吡啶环苯并菲衍生物分子的电荷传输和三阶非线性光学性质

采用密度泛函理论在B3LYP/6-31G**理论水平计算研究含酯基和吡啶环的苯并菲衍生物分子的电荷传输速率．结果表明，酯基双取代的苯并菲衍生物分子具有较高的空穴和电子传输速率，分别为0.22 cm2/v•s和1.51 cm2/v•s．同时引入酯基和吡啶环均不利于空穴和电子传输．使用有限场(FF)方法计算分子的三阶非线性光学性质．结果显示，在酯基和吡啶环之间引入柔性碳链的分子与不含吡啶环分子的三阶非线性光学性质基本一致，均具有较高的电荷传输速率和良好的三阶非线性光学性质．     

苯并菲衍生物盘状液晶分子的非线性光学与热力学性质

采用密度泛函理论在B3LYP/6-31G**理论水平,计算并研究苯丙炔(烯)酸酯苯并菲盘状液晶分子的偶极矩、非线性光学性质、电子光谱和热力学性质。结果显示,该分子表现出良好的非线性光学性质,其二阶和三阶非线性光学系数分别为104和106 a.u.数量级。其最低能量跃迁吸收波长分别为460和474 nm,对应π到π*的电子跃迁。在温度298.15 K时,苯丙炔酸酯和苯丙烯酸酯苯并菲衍生物分子的标准摩尔生成焓分别为-7317.06和-1052.68 kJ.mol-1,标准摩尔生成自由能分别为-6186.91和117.00 kJ.mol-1。     

Hydrogen Bonding Character Between the Glycine and BF4-

在B3LYP/6-31+G^*水平上研究BF₄^-与甘氨酸间氢键作用特征,并在B3LYP/6-311++G^**水平上计算单点能. 对二聚物几何结构、能量、氢键成键特征进行分析. 分子中的原子拓扑分析表明氢键成键原子间存在(3,-1)关键点,电子密度和Laplacian量落在氢键范围内. 进一步对氢键形成导致H原子净电荷、偶极矩、能量及体积的改变进行系统分析.     

Theoretical and spectroscopic studies of 5‐aminoorotic acid and its new lanthanide(III) complexes

The complexes of cerium(III) and neodymium(III) were synthesized by reaction of the respective inorganic salts with 5‐aminoorotic acid (H₄L) in amounts equal to the metal:ligand molar ratio of 1:3. The structures of the final complexes were determined by means of spectral (IR, Raman, ¹H NMR and ¹³C NMR) and elemental analysis. Significant differences in the IR spectra of the complexes were observed as compared to the spectrum of the ligand. A comparative analysis of the Raman spectra of the complexes with that of the free H₄L allowed a straightforward assignment of the vibrations of the ligand groups involved in coordination. The geometry of H₄L was computed and optimized for the first time with the Gaussian03 program using the B3PW91/6‐311++G**, B3PW91/LANL2DZ, B3LYP/6‐311++G** and B3LYP/LANL2DZ methods. The experimental IR and Raman bands of the ligand were assigned to normal modes on the basis of DFT calculations. The vibrational analysis performed for the studied species, H₄L and its complexes, helped to explain the vibrational behavior of the ligand vibrational modes sensitive to interaction with the lanthanides. The vibrational study gave evidence for the coordination mode of the ligand to lanthanide ions and was in agreement with the other theoretical prediction. Copyright © 2006 John Wiley & Sons, Ltd.     

DFT study of the effect of different metals on structures and electronic spectra of some organic-metal compounds as sensitizing dyes

Ruthenium polypyridined-derivative complexes are used in dye-sensitized solar cell [DSSC] as a light to current conversion sensitizer. In order to lower the cost of the DSSC the normal transition metals were used to replace the noble metal ruthenium, and some compounds [ML₂L′] (M = Pt, Fe, Ni, Zn; L = isonicotinic acid, L′ = maleonitriledithiolate, I = PtL₂L′, II = FeL₂L′, III = NiL₂L′, IV = ZnL₂L′) were selected as the replacement. The geometries, electronic structures and optical absorption spectra of these compounds have been studied by using density functional theory (DFT) calculation at the B3LYP/LANL2DZ, B3P86/LANL2DZ, B3LYP/GEN level of theory. All the geometric parameters are close to the experimental values. The HOMOs are mainly on the maleonitriledithiolate groups mixed with fewer characters of the metal atom, the LUMOs are mainly on the two pyridine ligands. This means that the electron transition is attributed to the LLCT. The maximum absorptions of complexes are found to be at 351 nm, 806 nm for compound I, and 542 nm for compound II. The maximum absorptions of complexes are found to be at 884 nm for compound III, and 560 nm for compound IV. This means that those compounds may be as a suitable sensitizer for solar energy conversion applications.     

Density functional theory and time‐dependent density functional theory study on a series of iridium complexes with tetraphenylimidodiphosphinate ligand

A series of heteroleptic cyclometalated Ir(III) complexes for organic light‐emitting diodes (OLEDs) application have been investigated theoretically to explore their electronic structures and spectroscopic properties. The geometries, the electronic structures, the lowest‐lying singlet absorptions and triplet emissions of Ir(dfppy)₂(tpip), Ir(tfmppy)₂(tpip), and theoretically designed models of Ir(ppy)₂(tpip) were investigated with the density functional theory (DFT)‐based approaches, where ppy = 2‐phenylpyridine, dfppy = 4,6‐difluorophenylpyridine, tfmppy = 4‐trifluoromethylphenylpyridine, and tpip = tetraphenylimidodiphosphinate. Their structures in the ground and their excited states have been optimized at the DFT/Becke 3‐parameter Lee Yang Parr (B3LYP)/Los Alamos National Laboratory 2‐double‐z (LANL2DZ) and time‐dependent DFT/B3LYP/LANL2DZ levels, and the lowest absorptions and emissions were evaluated at B3LYP and M062X level of theory, respectively. Furthermore, the energy transfer mechanism together with the advantage of low efficiency roll‐off for these complexes also can be analyzed here. Copyright © 2013 John Wiley & Sons, Ltd.     

Competition between counterions and active protein sites to bind bisquaternary ammonium groups. A combined mass spectrometry and quantum chemistry model study

A model study of the interaction between biologically active bisquaternary ammonium salts and their molecular targets in living systems is urgently needed to elucidate the molecular mechanisms involved in the interactions between these compounds. To address this need a combined experimental-computational study of the interaction of two tetramethylammonium cations (modeling two quaternary groups) with the chlorine anion and with the deprotonated 2,5-dihydroxybenzoic acid (modeling a carboxylic group and an aromatic ring of side radicals of proteins) has been performed. Fast atom bombardment mass spectrometry method and DFT/B3LYP/6-31++G^** and MP2/6-31++G^** calculations have been employed in the study. Stable noncovalent complexes with different ratios of the tetramethylammonium cations and chlorine anions or deprotonated 2,5-dihydroxybenzoic acid anions were registered in the mass spectra of tetramethylammonium chloride and 2,5-dihydroxybenzoic acid mixture. This finding shows that the organic and inorganic anions compete to bind tetramethylammonium in the studied system. The theoretically determined stabilities of the noncovalent complexes were compared with the relative stabilities evaluated from the mass spectrometric measurements. The results of the study allow us to elucidate the competing interactions that exist between quaternary groups with inorganic counterions or with active groups of molecular protein targets.     

Zn2+-Schiff’s Base Complex as an “On–Off-On” Molecular Switch and a Fluorescence Probe for Cu2+ and Ag+ Ions

The present study presents a thorough theoretical analysis of the electronic structure and conformational preference of Schiff’s base ligand N,N-bis(2-hydroxybenzilidene)-2,4,6-trimethyl benzene-1,3-diamine (H₂L) and its metal complexes with Zn²⁺, Cu²⁺ and Ag⁺ ions. This study aims to investigate the behavior of H₂L and the binuclear Zn²⁺ complex (1) as fluorescent probes for the detection of metal ions (Zn²⁺, Cu²⁺ and Ag⁺) using density functional theory (DFT) and time-dependent density functional theory (TDDFT). The six conformers of the H₂L ligand were optimized using the B3LYP/6–311?+??+?G** level of theory, while the L^?2-metal complexes were optimized by applying the B3LYP functional with the LANL2DZ/6–311?+??+?G** mixed basis set. The gas-phase and solvated Enol-cis isomer (E-cis) was found to be the most stable species. The absorption spectra of the E-cis isomer and its metal complexes were simulated using B3LYP, CAM-B3LYP, M06-2X and ωB97X functionals with a 6–311?+??+?G** basis set for C, O, N and H atoms and a LANL2DZ basis set for the metal ions (Zn²⁺, Cu²⁺ and Ag⁺). The computational results of the B3LYP functional were in excellent agreement with the experimental results. Hence, it was adopted for performing the emission calculations. The results indicated that metal complex (1) can act as a fluorescent chemosensor for the detection of Ag⁺ and Cu²⁺ ions through the mechanism of intermolecular charge transfer (ICT) and as a molecular switch “On–Off-On” via the replacement of Cu²⁺ by Ag⁺ ions, as proved experimentally.

     

骨显像放射性药物锝-双膦酸盐配合物99mTc-MDP的结构

运用密度泛函理论方法对锝标记双膦酸盐配合物^99mTc-MDP进行了结构预测和计算, 其中MDP代表亚甲基双膦酸. 根据几何异构、构象异构、电荷异构和自旋态异构等特性预测该化合物共有14种异构体. 基于B3LYP/LANL2DZ水平优化的分子结构和计算的总能量,确定了两种稳定异构体,并与实验结构进行了比较. 运用B3LYP/6-31G*(LANL2DZ用于Tc, cc-pVDZ-pp用于Tc)和B3LYP/DGDZVP方法对化合物的稳定结构进行了计算. 理论计算值与实验值吻合较好,而基     

Theoretical study on the influence of ancillary ligand on the energy and optical properties of heteroleptic phosphorescent Ir(III) complexes

The geometries, energies, and electronic properties of a series of phosphorescent Ir(III) complexes including FIrpic, FIrmpic, FIrpca, and FIrprza have been characterized within density functional theory DFT calculations, which can reproduce and rationalize experimental results. The properties of excited states of the Ir(III) complexes were characterized by the configuration interaction with single-excitation (CIS) method. The ground- and excited-state geometries were optimized at the B3LYP/LANL2DZ and CIS/LANL2DZ levels, respectively. The absorption and phosphorescence wavelengths were computed based on the optimized ground- and excited-state geometries, respectively, by the time-dependent density functional theory (TD-DFT) methods. All the energies have been calculated by B3LYP method. The predictions revealed that the nature of the ancillary ligands can influence the distributions of frontier molecular orbitals and their energies, resulting in impact on the transition character and change in the emission color. In addition, the charge of transport quality has been estimated approximately by the predicted reorganization energy (λ). Our result also indicates that the substituent groups and different auxiliary ligand not only change the character of transition but also affect the rate and balance of charge transfer.     

甘氨酸精氨酸二肽的结构计算和二肽气相最低能构象模型

研究了气相下的甘氨酸精氨酸二肽体系．在考虑三种异构体内轴转动时对势能面进行了系统采样．大量的初始构型经PM3、 HF/3-21G^*、 BHandHLYP/6-31G^*及BHandHLYP/6-311++G^**方法逐级优化获取了最终的稳定构型,低能的结构进一步运用BHandHLYP、cam-B3LYP、 B97D及MP2方法在6-311++G(3df,3pd)基组下进行了单点能计算．计算了重要构象的转动常量、偶极矩、垂直电离能、温度分布及红外光谱．最终数据表明,气相GlyArg主要以电中性的状态存在,参考所有的氨基酸及部分二肽的稳定结构特征,结合各类氨基酸的疏水性,归纳出了各种不同二肽的最低能构象是中性或双电性构型的理论模型．     

Electronic structure and infrared spectrum of a WnC0＇± （n= 1-6） cluster

W_nC^0,± (n=1-6) clusters are investigated by using the density functional theory (DFT) at the B3LYP/LANL2DZ level. We find that the neutral, anionic and cationic ground state structures are similar within the same size, and constituted by substituting a C atom for one W atom in the structures of W_n+1 clusters. The natural bond orbital (NBO) charge analyses indicate that the direction of electron transfer is from the W atom to the 2p orbital of the C atom. In addition, the calculated infrared spectra of the W_nC^0,± (n=2-6) clusters manifest that the vibrational frequencies of neutral, anionic and cationic clusters are similar in a range of 80 cm^-1-864 cm^-1. The high frequency, strong peak modes are found to be an almost stretched deformation of the carbide atom. Finally, the polarizabilities of W_nC^0,± (n=1-6) clusters are also discussed.