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1.
采用密度泛函理论(DFT)-B3LYP/6-31G(d)方法对9,9'-螺双芴低聚物[(SBF)n(n=1-4)]体系进行全优化, 得到各分子的最高占据轨道(HOMO)和最低空轨道(LUMO)能量及HOMO-LUMO能隙, 结果表明各分子整体表现出很好的共轭性质. 并在分子的阳离子和阴离子状态的优化结构基础上, 计算得到电离势(IP)、电子亲和势(EA)、空穴抽取能(HEP)、电子抽取能(EEP)和重组能等相关能量. 利用单激发组态相互作用(CIS)/3-21G方法优化得到9,9'-螺双芴单体的S1激发态的几何构型. 用含时密度泛函理论(TD-DFT)方法计算得到了分子吸收光谱和荧光光谱的相关数据. 随着聚合长度的增加, 能隙变窄, 空穴注入和电子转移的能力都相应提高, 吸收光所需能量减小, 吸收强度(f)增大, 光谱红移. 采用线性外推法, 利用低聚物分子的各种性质与聚合度n之间的关系, 得到高聚物的相应性质.为考察9位螺芴化的影响, 将(SBF)n的相关性质与母体芴的低聚物[(FL)n(n=1-4)]进行比较, 由两者的计算结果对比显示, 在芴的9位螺芴化可以提高电子和空穴的传输能力, 并同时保留芴优良的发光性质. 相似文献
2.
用密度泛函B3LYP方法对3,9-咔唑低聚物[(3,9-carbazole)n(n=1,2,3,4,6,8)]体系进行了全优化, 计算得到电离能、电子亲合势、空穴抽取能及电子抽取能等相关能量, 用ZINDO和TD-DFT方法计算得到吸收光谱; 分析了各种能量的变化及光谱规律. 用外推法由低聚物分子的各种性质与聚合度n相联系得到高聚物的性质, 将所得结果与2,7-咔唑(2,7-carbazole)及类似聚合物进行了比较分析. 结果表明, 3,9位聚合的咔唑整体共轭程度降低, 光谱蓝移, 其IP值和聚芴相近, 可以作为空穴接受材料应用于多层电子荧光器件的空穴传输层. 用CIS方法进行优化得到部分分子的S1激发态结构, 用ZINDO和TD-DFT方法得到对应的发射光谱. 相似文献
3.
采用密度泛函理论(DFT)-B3LYP/6-31G(d)方法对9,9'-螺双芴低聚物[(SBF)_n(n=1-4)]体系进行全优化,得到各分子的最高占据轨道(HOMO)和最低空轨道(LUMO)能量及HOMO-LUMO能隙,结果表明各分子整体表现出很好的共轭性质.并在分子的阳离子和阴离子状态的优化结构基础上,计算得到电离势(IP)、电子亲和势(EA)、空穴抽取能(HEP)、电子抽取能(EEP)和重组能等相关能量.利用单激发组态相瓦作用(CIS)/3-21G方法优化得到9,9'-螺双芴单体的S_1激发态的几何构型.用含时密度泛函理论(TD-DFT)方法计算得到了分子吸收光谱和荧光光谱的相关数据.随着聚合长度的增加,能隙变窄,空穴注入和电子转移的能力都相应提高,吸收光所需能量减小,吸收强度(f)增大,光谱红移.采用线性外推法,利用低聚物分子的各种性质与聚合度n之间的关系,得到高聚物的相应性质.为考察9位螺芴化的影响,将(SBF)_n的相关性质与母体芴的低聚物[(FL)_n(n=1-4)]进行比较,由两者的计算结果对比显示,在芴的9位螺芴化可以提高电子和空穴的传输能力,并同时保留芴优良的发光性质. 相似文献
4.
采用DFT/B3LYP方法对低聚物(p- P)2n、(m- P)2n、(m- P1)n和(m- P2)n(n=1~4)体系进行了全优化, 并用ZINDO, TD- DFT方法计算其吸收光谱性质. 分析了各系列HOMO- LUMO能隙、最大吸收波长随n递增的变化规律. 根据低聚物的上述结果外推得到聚合物的性质, 并由此计算了聚合物的有效共轭长度(ECL). 由于间位连接方式的影响, 削弱了间位聚苯及其衍生物的有效共轭程度, 与对位聚苯比较, 能带带隙变宽, 吸收光谱蓝移约130 nm. 相似文献
5.
用DFT-B3LYP方法对低聚物(PF30T)n [n(芴)∶n(硫芴)=2∶1, 物质的量之比, n=1~4], (PF50T)n [n(芴)∶n(硫芴)=1∶1, 物质的量之比, n=1~4]体系全优化, 得到两系列低聚物的电离能(IP(a,v))、电子亲和势(EA(a,v))、空穴抽取能(HEP)、电子抽取能(EEP). 在此基础上用ZINDO和TD-DFT方法计算吸收光谱, 分析了两个系列的HOMO-LUMO能隙随着n递增的变化趋势及硫芴含量对低聚物电子结构和光谱性质的影响, 推断了高聚物的电子和光谱性质. 用ab initio CIS方法优化了低聚物的S1激发态结构并分析了其与发射光谱的关系. 研究显示: 2,8位引入的硫芴基团, 破坏了链的共轭, 而且随着硫芴含量的增加, HOMO-LUMO能隙变大, 光谱蓝移; 激发态结构趋于共面化. 相似文献
6.
含氯不对称配体8-羟基喹啉铝配合物电子和光谱性质的TDDFT研究 总被引:3,自引:0,他引:3
以含时密度泛函理论(TDDFT) B3LYP方法通过电子结构计算研究了含氯不对称配体8-羟基喹啉铝配合物AlQ(ClQ)2的吸收和发射光谱性质. 计算表明, 第一激发态与基态结构变化主要集中在单一含氯配体中, 与mer-AlQ3相比, 前线占有轨道离域程度变大而未占据轨道则定域化程度提高. 最大吸收主要来自配体内电荷转移跃迁, 电荷从苯酚环和氯向含氮的吡啶环跃迁. 电子陷入态计算表明, 抽取电子能量比AlQ3相应值略大, 与实验结果一致. 相似文献
7.
采用密度泛函理论(DFT)-B3LYP/6-31G(d)方法研究了给、吸电子基团对称和不对称封端对9,9 -螺双芴光电性质的影响. 全优化得到了9,9 -螺双芴封端前后各分子的稳定构型, 分析了各种封端系列的HOMO-LUMO能隙. 结果表明, 以给电子基团噻吩和吸电子基团噁二唑不对称封端作用于9,9 -螺双芴, 能使LUMO能量大幅降低, HOMO能量略有升高, 能隙明显变窄. 不对称封端低聚9,9 -螺双芴分子[T(SBF)nO, n=1~4]在相同计算水平下的全优化结果表明吸、给电子基团的电荷比随n的增大而递增, 揭示了给、吸电子基团间存在分子内电荷转移(ICT), 且这种电荷转移在低聚物中得到加强. 计算得到的电离势、电子亲和势、空穴抽取能、电子抽取能和重组能等相关能量, 证明了在主链上形成的载流子传输通道提高了空穴和电子传输的能力. 用TD-DFT和ZINDO方法计算了T(SBF)nO (n=1~4)的吸收光谱, 随着n的增大而激发光所需的能量减小, 光谱红移, 吸收强度增大|用CIS/6-31G(d)方法优化得到了不对称封端9,9 -螺双芴S1激发态构型, 结果表明, 激发态的平面化程度比基态高. 相似文献
8.
用密度泛函理论研究一种新型有机硅化合物异构体的振动光谱 总被引:6,自引:1,他引:5
在B3LYP/6-31+G(d)的水平上, 对两种含有手性Si原子的新型有机硅单体Si2(CH3)2H2N2(C2H5)4和Si4(CH3)4H4N2(C6H5)2的几种异构体进行了研究, 在全参量几何构型优化的基础上, 进行了简谐振动频率计算, 同时对所研究的体系进行了热力学性质和低能激发态的含时密度泛函理论(TDDFT)计算. 理论计算表明, 构象异构体之间的红外光谱差异不大, 热力学和低能激发态性质也相似; 顺/反结构相似的异构体之间红外光谱差异不大, 但热力学和低能激发态性质却呈现差异; 旋光异构体或顺/反结构相差较大的异构体之间, 红外光谱和热力学及低能激发态性质有明显的差异. 从理论上解释了实验红外光谱中Si—H振动峰的裂分是由异构体的存在所致, 并找到裂分峰所对应的异构结构. Si—H键振动频率与其键长相关. 相似文献
9.
用密度泛函B3LYP方法对低聚体(DEF-BSeD)n(n=1~4)[其中9,9二乙基芴(DEF)单元与苯并硒化二唑(BSeD)单元的摩尔比分别为1∶1和2∶1]进行全优化, 计算电离能(PI)、电子亲和势(EA)和能隙(ΔH-L), 在基态结构的基础上用TD-DFT和ZINDO方法计算激发能和电子吸收光谱, 并利用外推法得到高聚物的相应性质. 从外推结果看出, 随着聚合物中BSeD比例的增大, 聚合物的最低单激发能呈减小的趋势, 最大电子吸收光谱红移. 用CIS方法优化得到单体的S1激发态结构, 计算结果表明, 激发态的结构更趋近于平面构型. 相似文献
10.
二氧化钛分子电致发光激发特性研究 总被引:1,自引:0,他引:1
采用密度泛函B3P86方法优化得到了沿分子平面不同外电场作用下TiO2分子的基态稳定构型, 在优化构型下利用杂化CIS (CI-Singles)-B3P86方法在6-311+G*基组水平上, 研究了不同外电场下TiO2分子前六个激发态的激发能和跃迁波长等激发特性. 研究结果表明, TiO2分子多个激发态满足偶极跃迁定则, 跃迁光谱对应多个峰值, 在分子水平上, 可以增大利用太阳光的比例. 在外电场作用下, 能隙随电场的增大而减小, 电子易从最高占据轨道跃迁到最低空轨道形成空穴, 各个激发态跃迁波长均有随电场增大发生红移的趋势, 最长589 nm, 因而利用外电场可以控制材料的发光光谱范围在可见光区域扩展. 相似文献
11.
采用密度泛函理论B3PW91和UB3PW91方法, 分别对4种Ir(Ⅲ)配合物(ppy)2Ir(acac)(1, ppy=2-苯基吡啶, acac=乙酰丙酮)、(npy)2Ir(acac)(2, npy=2-萘-1-基吡啶)、(pq)2Ir(acac)(3, pq=2-苯基喹啉)和(bzq)2Ir(acac)(4, bzq=苯并喹啉)进行了基态和激发态的几何优化, 在此基础上用TD-DFT方法计算了吸收和发射光谱. 结果表明, 随着ppy配体上并苯环位置的变化, 参与最大吸收和发射的分子轨道能隙降低程度不同, 从而使配合物2, 3, 4的最大吸收和发射光谱都比配合物1发生红移, 其中在吡啶环上增加苯环对吸收光谱的影响最大. 这4个分子最大吸收波长的顺序为1<2<4<3, 而最大发射波长顺序则是1<4<3<2. 由于配合物2的两个苯环上H的强排斥作用降低了其共轭程度, 使分子发生很大程度的扭曲, 导致其斯托克位移最大. 相似文献
12.
Neutral/zwitterionic form equilibrium, excited state wave functions, absorption and emission spectra of kynurenine (KN) in various solvents (water, methanol, ethanol, and dimethylsulfoxide) have been studied theoretically. The ground electronic state geometries have been optimized by density functional theory methods; the geometries of the first two singlets excited electronic states have been optimized using the CASSCF technique. The influence of the solvent was taken into account by the calculation of the solvation free energies using the Polarizable Continuum Model (PCM). The spectra of electronic absorption and fluorescence emission have been calculated by the CS‐INDO S‐CI and SDT‐CI methods [Momicchioli, Baraldi, and Bruni, Chem Phys, 1983, 82, 229]. The calculated data reproduce the experimental positions of maxima and the solvent‐induced shifts of the absorption and emission bands well. The energy gap between the two lowest excited states of KN increases from aprotic to protic solvents. This fact suggests that the “proximity effect” cannot be responsible for the ultrafast decay of KN fluorescence in protic solvents. © 2010 Wiley Periodicals, Inc. Int J Quantum Chem, 2011 相似文献
13.
Min Zhang Ze‐Sheng Li Yan Li Jia Liu Jia‐Zhong Sun 《International journal of quantum chemistry》2009,109(6):1167-1176
The geometries, spectroscopic and electronic structures properties of a series of heteroleptic phosphorescent Ir(III) complexes including N981, N982, N983, N984 have been characterized by density functional theory calculations. The excited‐state properties of the Ir(III) complexes have been characterized by CIS method. The ground‐ and excited‐state geometries were optimized at the B3LYP/LANL2DZ and CIS/LANL2DZ levels, respectively. By using the time‐dependent density functional theory method, the absorption and phosphorescence spectra were calculated based on the optimized ground‐ and excited‐state geometries, respectively. The results show that the absorption and emission data agree well with the corresponding experimental results. The calculated results also revealed that the nature of the substituent at the 4‐position of the pyridyl moiety can influence the distributions of HOMO and LUMO and their energies. In addition, the charge transport quality has been estimated approximately by the calculated reorganization energy (λ). Our result also indicates that the positions of the substitute groups not only change the transition characters but also affect the charge transfer rate and balance, and complex N982 is a very good charge transfer material for green OLEDs. © 2008 Wiley Periodicals, Inc. Int J Quantum Chem, 2009 相似文献
14.
用密度泛函理论(DFT)和单激发(CIS)方法分别对几种联苯桥联的聚对苯乙烯撑(PPV)齐聚物分子的基态结构和激发态结构进行全优化, 得到基态与激发态分子的最优几何构型和前线分子轨道, 并用半经验ZINDO(Zerner's intermediate neglect of differential overlap)和含时密度泛函(TD-DFT)方法分别计算了各自的吸收光谱和发射光谱, 分析了随着联苯链的增长前线分子轨道能级和能隙的变化以及对光电性能的影响. 结果表明, 联苯链的加长对吸收和发射性质影响不大, 但在分子结构上由于PPV 齐聚物(发光中心)链间交叉链内扭曲的构象越来越明显, 降低了分子的平面性和对称性, 减弱了这类共轭分子在固体中的π-π堆积作用, 这可能是减少荧光猝灭效应, 提高固体发光器件荧光量子效率的主要原因. 相似文献
15.
Saranya G Kolandaivel P Senthilkumar K 《The journal of physical chemistry. A》2011,115(51):14647-14656
Fluoranthene and benzo[k]fluoranthene-based oligoarenes are good candidates for organic light-emitting diodes (OLEDs). In this work, the electronic structure and optical properties of fluoranthene, benzo[k]fluoranthene, and their derivatives have been studied using quantum chemical methods. The ground-state structures were optimized using the density functional theory (DFT) methods. The lowest singlet excited state was optimized using time-dependent density functional theory (TD-B3LYP) and configuration interaction singles (CIS) methods. On the basis of ground- and excited-state geometries, the absorption and emission spectra have been calculated using the TD-DFT method with a variety of exchange-correlation functionals. All the calculations were carried out in chloroform medium. The results show that the absorption and emission spectra calculated using the B3LYP functional is in good agreement with the available experimental results. Unlikely, the meta hybrid functionals such as M06HF and M062X underestimate the absorption and emission spectra of all the studied molecules. The calculated absorption and emission wavelength are more or less basis set independent. It has been observed that the substitution of an aromatic ring significantly alters the absorption and emission spectra. 相似文献
16.
苯并蒽酮衍生物在新型荧光材料、非线性光学材料和液晶显示材料等领域有较大的应用前景.本文采用量子化学方法优化了3-吡咯烷基苯并蒽酮的基态几何结构和第一单重激发态的几何结构,并与X射线晶体衍射实验值进行了对比.利用含时密度泛函理论(TD-DFT)的不同泛函,计算了3-吡咯烷基苯并蒽酮在气相和溶剂中的吸收和发射光谱,考察了它的电子结构和光谱特征,并分析了不同泛函、基组以及溶剂效应对吸收和发射光谱的影响.计算结果表明:3-吡咯烷基苯并蒽酮的最强吸收和发射光谱都是具有π→π*跃迁特征的电荷转移(CT)态;泛函B3LYP能较好地重现实验吸收能;而对于具有分子内电荷转移特征的激发态,泛函MPWK能较好地重现实验发射能.溶剂效应的计算表明,不同极性的溶剂对3-吡咯烷基苯并蒽酮的吸收光谱和发射光谱的影响较小.理论预测的光谱与实验结果一致. 相似文献
17.
Density functional theory calculations were carried out to investigate the structural and opto-electronic properties of cyclopenta[2,1-b:3,4-b′]dithiophene (CPDT) derivatives. The ground state, cationic and anionic geometries of cyclopentadithiophene derivatives were optimized at B3LYP/6-311G(d,p) level of theory. Based on these geometries, ionic state properties such as ionization potentials, electron affinities, hole extraction potential, and electron extraction potential of cyclopentadithiophene derivatives have been calculated. The charge transfer integral, spatial overlap integral, and site energy were calculated from the matrix elements of Kohn–Sham Hamiltonian. Computed results show that the mobility of charge carriers in CPDT derivatives is strongly affected by the substitution of electron withdrawing group at bridge-head and α-positions. The excited state geometry of CPDT derivatives were optimized using configuration interaction singles method. On the basis of ground and excited states geometry, absorption and emission spectra of cyclopentadithiophene derivatives were calculated using the time-dependent density functional theory method. It has been observed that the substitution of EWG in cyclopentadithiophene core alters the absorption and emission spectra. The nonlinear optical property of CPDT derivatives have been studied through computed static polarizability and first hyperpolarizability. 相似文献