联苯负离子自由基与萘分子间长程电子转移的从头算研究

分离处理π σ π体系中的给体 ,受体和σ桥体 ,在HF/4 31G和HF/DZP水平上优化了联苯 ,联苯负离子自由基 ,萘和萘负离子自由基的几何构型 ,计算了分子间电子转移的内重组能 .取线性反应坐标R =0 .5 ,在STO 3G水平上用变分原理和分子轨道跃迁能方法 ,计算了π σ π体系自交换反应的电子转移矩阵元 .对交叉反应体系 ,沿线性反应坐标搜寻最小轨道能级分裂Δmin,确定了电子转移矩阵元和过渡态构型 .用Marcus双球模型计算液相电子转移的溶剂重组能 ,结合半经典模型计算了几种以联苯负离子自由基为给体 ,联苯和萘为受体的π σ π体系分子内电子转移速率常数 .     

电子转移的外电场效应──苯分子与苯正离子自由基间电子转移的从头算研究

基于半经典电子转移理论,结合量子化学计算,在HF/DZP水平上,研究外电场作用下平行的苯分子-苯正离子自由基体系(C₆H₄)₂⁺的分子内电子转移问题.在给体和受体几何构型优化的基础上,用线性反应坐标确定电子转移过渡态,分别用两态变分方法和基于Koopmans定理的分子轨道跃迁能方法计算电子转移矩阵元V_AB,讨论了V_AB对给体和受体中心距d的指数衰减关系.取中心距为0.6nm,研究了外电场对反应热的影响,计算得到在不同外电场强度下分子内气相电子转移的速率常数k.     

二氯二氰基苯醌及其阴离子自交换电子转移反应的理论研究

基于非平衡溶剂化能的约束平衡方法和溶剂重组能的新表达式, 实现了电子转移反应溶剂重组能的数值解, 研究了二氯二氰基苯醌(DDQ)及其阴离子体系DDQ-之间的自交换电子转移反应. 考虑了DDQ与DDQ-分子以平行方式形成受体-给体络合物时的两种构型. 引入线性反应坐标, 计算了该反应在不同溶剂中的溶剂重组能. 基于两态变分模型得到了反应的电子耦合矩阵元. 根据电子转移动力学模型, 计算了该自交换电子转移反应的速率常数.     

肽链体系中的长程电子转移: 酪氨酸与色氨酸间电子转移的理论研究

用电子转移的半经典模型和量子化学半经验方法对色氨酸-酪氨酸二肽体系进行电子转移动力学参数计算.用AM1方法分别优化给体、受体和桥体几何构型,用线性反应坐标的构造了给体和受体分子间电子转移的双势阱,得到两透热势能面交叉处的反应坐标为R=(约等于)0.10,并确定了反应的内重组能及反应热.对色氨酰酪氨酸和酪氨酰色氨酸体系进行闭壳层HF自洽场计算,按Koopmans定理计算体系分子轨道分裂能值A(三角形),在R约为0处发现了A(三角形)的极小值,从而获得色氨酰酪氨酸及酪氨酰色氨酸体系分子内电子转移的电子转移矩阵元V~D~A分别为0.96kJ.mol^-^1和0.87kJ.mol^-^1.采用Marcus双球模型估算反应的溶剂重组能为64.60kJ.mol^-^1。     

一类以双酚A为连接链的电子给体—受体体系的合成及分子内电子转移反应研究

本文合成了一类以9,10-二甲氧基蒽为给体,双酚A为连接链连接不同受体的电子给体受体新体系,通过稳态荧光光谱及时间分辨荧光光谱研究了它们的光致电子转移反应,并通过测定氧化还原电位,计算出各电子给个受体体系电子转移反应的自由能变化。结果表明,在这一类体系中,光致电子转移速率常数与自由能变化关系符合Rehm-Weller关系式。     

直链烷烃体系电子转移的价键方法研究

应用价键理论研究直链烷烃体系的电子转移过程, 直接计算得到的耦合能与实验值以及其它的理论计算结果一致. 对于阳离子系列, BOVB方法和VBCIS方法都给出了与实验相符的计算结果, 但对于阴离子系列, VBCIS方法的β值基本一致, 而BOVB方法的β值较大. 计算结果表明, 价键理论可以应用于电子转移的理论研究, 而VBCIS方法是研究电子转移问题的一种合适的价键计算方法.     

分子间电子耦合的简便计算方法—孤立轨道法

在两态模型近似下,运用不同的计算方法评估了面心放置苯二聚体分子间电子转移耦合矩阵元.其中,基于孤立轨道依据二聚体自洽计算得到的单电子Hamiltonian(Fock矩阵)直接求解的电子转移积分的计算方法能方便地考虑孤立轨道的非正交性所带来的影响得到准确的有效电子转移积分的数值解.在该孤立轨道方法下,基函数和分子间距对电子耦合积分的影响也被系统研究.结果表明,相对基于过渡态理论寻找"两态能量差最小"计算的精确电子耦合值,基函数D95V计算结果表现出最好距离相关性.     

9,10-二氰基蒽和杜烯间光诱导电子转移的电荷分离态和电子耦合

采用从头算方法,讨论了9,10-二氰基蒽(DCA)和杜烯(DUR)间光诱导电子转移反应的态-态跃迁.考虑基组重叠误差(BSSE)对相互作用能的校正,用MP₂方法优化得到重叠式[DCA…DUR]配合物的稳定构型.用单激发组态相互作用(CIS)方法讨论了[DCA…DUR]配合物的光诱导电荷分离和电荷复合过程.根据广义Mulliken-Hush(GMH)模型,计算了电荷复合过程的电子耦合矩阵元.结果表明,[DCA…DUR]配合物的S₀→S₁和S₀→S₂跃迁产生了两个强的局域激发态,S₀→S₃跃迁直接导致电荷分离态,小的振子强度预测该电荷转移(CT)跃迁是一弱跃迁,电荷分离态S₃衰变到低局域激发态或基态的电荷复合是可能的.     

C4H6O,C4H6S与XF (X＝F,Cl, Br)分子间卤键的电子密度拓扑研究

运用MP2/aug-cc-pVDZ方法对2,5-二氢呋喃, 2,5-二氢噻吩与XF (X＝F, Cl, Br)之间的卤键作用进行了理论研究. 研究发现: C₄H₆O, C₄H₆S与XF之间不仅存在O(S)…XF n型卤键, C＝C双键与XF分子亦可形成π型卤键|对于C₄H₆O与XF之间的n型和π型卤键以及C₄H₆S与XF之间的π型卤键, 卤键键能ΔE、键鞍点处的电子密度ρ(r_c)以及电子给体到受体之间的电子转移数Δq(XF)均按B…F₂＜B…ClF＜B…BrF (B＝C₄H₆O, C₄H₆S)的顺序依次增大|对于卤键键能较大的体系C₄H₆O…BrF(n), C₄H₆O…BrF(π), C₄H₆S…F₂(n), C₄H₆S…ClF(n), C₄H₆S…BrF(n), C₄H₆S…BrF(π), 卤键作用介于离子键和共价键之间|而对于其它的卤键键能较小的体系, 卤键作用为闭壳层静电作用.     

双甲基化大豆苷元磺酸盐的合成、晶体结构及活性研究

以大豆苷元为原料合成了强水溶性异黄酮类化合物7,4′-二甲氧基异黄酮-3′-磺酸钠(1)和7,4′-二甲氧基异黄酮-3′-磺酸铜(2).X射线单晶衍射分析表明,化合物1的分子组成为[Na(H₂O)₂](C₁₇H₁₃O₄SO₃),Na的配位数为6,且相邻钠离子以7,4′-二甲氧基异黄酮-3′-磺酸根氧原子桥连,与两个磺酸根的3个氧原子和1个S原子组成六元环,六元环通过Na-O配位键彼此稠合,在晶体结构中形成延伸的锯齿状聚合八面体配位钠离子链;这些钠离子链之间又通过配位水与配位水、磺酸根之间的氢键作用自组装成二维结构的超分子离子聚合物.化合物2的分子组成为[Cu(H₂O)₆](C₁₇H₁₃O₄SO₃)₂·8H₂O,Cu(Ⅱ)位于对称中心上.[Cu(H₂O)₆]²⁺,C₁₇H₁₃O₄SO^-₃和H₂O之间存在多种氢键;并且异黄酮环反平行排列存在π…π的堆积作用.氢键和π…π的堆积作用使化合物2自组装成三维结构的超分子.抗缺氧缺血活性试验结果表明,它们的抗缺氧缺血活性比大豆苷元的高.     

Complete basis set, Gaussian, and hybrid density functional theory evaluation of the proton affinities of water and ammonia

An ab inito computation of reorganization energy for the electron transfer (ET) reactions between metal–benzene and metal ion–benzene complexes is presented. The geometry optimization of the metal–benzene complexes was performed. The metal atoms (or metal ions)– benzene molecule separation distances computed using an ab initio method were found to agree with earlier reported results. Values of reorganization energies using George-Griffith Marcus (GGM) method (the contribution from only diagonal elements of force constant matrix) and Hessian matrix method (including the contribution from both diagonal and off-diagonal elements) were computed. Results of reorganization energy show that the GGM method gives much lower values compared to those obtained using the Hessian method, suggesting that the coupling interactions between different vibrational modes are important to the inner-sphere reorganization energy for the ET reactions in gaseous phase.     

Theoretical Studies on the Absorption Spectra and Intramolecular Charge Transfer of Push-pull Zinc Porphyrin Dyes for Dye-sensitized Solar Cells

The electronic structures, absorption spectra and intramolecular charge transfer properties of five push-pull zinc porphyrin analogs with different donor group and π bridge have been investigated by density functio- nal theory(DFT) and TD(time-dependent)-DFT approach. The results show that the asymmetrical substituted diphenylamine group is favorable to the Q-band absorption of porphyrin dyes. The absence of the acetylenic bond in the π bridge part leads to the result that the B-band and the Q-band are blue-shifted and their absorption strength become weaker compared with that containing acetylenic bond, respectively. The introduction of the benzothiadiazole into the π bridge improves the intramolecular charge transfer.     

Pendant unit effect on electron tunneling in U-shaped molecules

The electron transfer reactions of three U-shaped donor-bridge-acceptor molecules with different pendant groups have been studied in different solvents as a function of temperature. Analysis of the electron transfer kinetics in nonpolar and weakly polar solvents provides experimental reaction Gibbs energies that are used to parameterize a molecular solvation model. This solvation model is then used to predict energetic parameters in the electron transfer rate constant expression and allow the electronic coupling between the electron donor and electron acceptor groups to be determined from the rate data. The U-shaped molecules differ by alkylation of the aromatic pendant group, which lies in the ‘line-of-sight’ between the donor and acceptor groups. The findings show that the electronic coupling through the pendant group is similar for these molecules.     

金属原子（离子）-苯配合物的电子转移反应

用密度泛函理论（ＤＦＴ／ＢＬＹＰ）在６－３１Ｇ基组水平上研究了金属原子－苯与离子－苯配合物的气相电子转移过程,得到了Ｍ（Ｌｉ,Ｎａ,Ｍｇ）－Ｃ６Ｈ６和Ｍ＾＋－Ｃ６Ｈ６络合物以及它们之间电子转移过程的先驱络合物的最优几何构型和电子结构。同时,利用线性坐标确定了过滤态的结构,结果表明：ＤＦＴ方法计算得到的单体,即原子（离子）－苯的构型,同ＭＰ２结果较为一致。先驱络合物具有Ｃ６ν对称性,给体与受体间距离     

巯基偶氮苯单分子电子传输的取代基效应

用密度泛函理论B3LYP/6-31G**计算巯基偶氮苯分子及分子离子的空间构型和电子结构, 研究取代基对巯基偶氮苯单分子电子传输的影响. 结果表明, 拉电子基(—COOH、—NO2)的引入, 可以提高巯基偶氮苯单分子电子传输体系的稳定性, 使体系LUMO的离域性增高、S原子反应活性增强、HOMO-LUMO能隙显著减小, 进而降低电子传输能垒, 有利于分子电子传输. 相同取代基的分子离子比分子具有更小的HOMO-LUMO能隙, S—Au键更易形成, 金属-分子-金属结构的电子传输性更强.     

Triarylborane π-electron systems with intramolecular charge-transfer transitions

The incorporation of B element into π-conjugated system is an efficient strategy to tune the steric and electronic structure and thus optoelectronic properties of π-electron systems.The vacant p orbital on the tricoordinate B center makes it exhibit several electronic and steric features,such as electron-accepting ability through p-π~* conjugation,the high Lewis acidity to coordinate with Lewis bases,as well as the steric bulk arising from the aryl substituent on the B center to get enough kinetic stability.As a result,the boryl group is a very unique electron acceptor.When an electron-donating amino group is present,the triarylboranes would display intense intramolecular charge transfer transitions,which lead to interesting optoelectronic properties and great utilities.This short review summarizes the recent progress in π-electron systems,which contain both B and N elements and thus display intramolecular charge-transfer transitions.The triarylboranes are introduced based on their structural features,including the linear π-system with boryl and amino groups at the terminal positions,the lateral borylsubstituted π-system with amino groups at the terminal positions,the biphenyl π-system with an amino and a boryl groups at o,o'-positions,nonconjugated U- and V-shaped π-system,macrocylcic π-system with B and N embedded in the ring,B,N-bridged ladder-type π-system,as well as the polycyclicπ-system with B embedded in the center.     

O2+O2 electron transfer reactivity in the quartet state from ab initio calculation including electron correlation

The structures and properties of the O₂+O₂⁻ electron transfer system in the quartet state, both in the gaseous phase and in solution, were studied at the UMP2(full)/6-311+G* basis set level for the five selected coupling structures: two T-type, collinear, parallel, and crossing. The stabilities of these encounter complexes were compared. The activation barriers, coupling matrix elements, and the electron transfer rate at two theoretical levels (semiclassical and quantum mechanical) were also calculated for the quartet state, and the effect of the solvent medium evaluated at the self-consistent reaction field level. Results indicate that the structures and properties of the encounter complexes directly affect the mechanism and rate of the electron transfer reaction, the contact distances for this O₂…O₂⁻ were generally large (3 Å), the interaction between the donor and the acceptor was weak, and the structures are floppy. The electronic transmission factor for the reacting system, O₂+O₂⁻, was less than unity (ca. 001–0.6), thus the electron transfer reaction was non-adiabatic in nature. Analysis of the dependence of relevant kinetic parameters on various influencing factors showed that the effect of the solvent medium on the coupling matrix element was small, but that on the electron transfer rate was very large, and the gaseous phase results for the molecular geometrical parameters and their contributions can directly transfer to solution. Among the five selected transition state structures, the electron transfer was more likely to take place via the T-type and the P-type structures, the rate values from two theoretical levels were in good agreement with each other and were also very close to the experimental findings. If the various anharmonic vibrational contributions, the effect of the solvent molecular electronic structures and the interaction between the reacting species and the solvent medium are taken into account, the results can be improved.     

Donor acceptor interaction in metalloproteins

This work addresses some electronic aspects of electron transfer at large distances when the donor and acceptor are attached to a polymeric structure. The transfer-matrix approach and a Green's function formalism are used to obtain an expression for the transition matrix element T _ab. The results are analyzed and compared with previous results obtained from related models.Work partially supported by the Brazillian Agency CNPqOn leave of absence from Departamento de Física, Universidade Federal de Pernambuco, 50000, Recife, Pe, Brasil