芴2,7位取代的9,9’-二芳基螺芴类化合物的合成及性能

设计并合成了一系列以三苯胺为核,芴衍生物为外围基团的有机蓝光小分子,该合成通过Suzuki反应在9-芳基芴的2位和(或)7位引入相同或不同取代基作为模块,并利用Friedel-Crafts反应将4-甲基三苯胺与这一系列模块结合.用NMR,MS和元素分析进行结构表征.荧光测试结果表明该类化合物溶液的荧光发射波长范围在442～466 nm之间,属蓝光发射.电化学测试显示该类材料的HOMO能级位于-5.15～-5.19 eV之间.差示扫描量热仪与热重分析得出化合物的玻璃化转变温度在166℃以上,热分解温度高于398℃,表明该类材料具有良好的热稳定性.     

2,4-二氰基-3-二乙基氨基-9,9-二乙基芴基星状蓝色发光化合物的合成与性质

本文设计合成了两个新的星状分子1和2,它们分别含有一个三苯胺和苯环的核,并都以三个2,4-二氰基-3-二乙氨基-9,9-二乙基芴为端基。光学性质研究表明,这两个具有D-A结构的化合物都显示出分子内电荷转移的性质。化合物1在强极性溶剂中表现出了双荧光发射特性。这两个化合物还显示出中等强度的荧光和高的热稳定性,这预示了它们在蓝色荧光材料方面的应用潜力。     

2,7-二乙烯吡啶基-9,9′-二乙基芴纳米颗粒的粒度测量及荧光光谱的研究

利用二次沉淀法制备出不同粒径(101.6~516.9nm)的2,7-二乙烯吡啶基-9,9′-二乙基芴有机纳米微粒。通过激光粒度仪测试发现:其平均粒度和多分散指数(PDI)值随着放置时间的增长、有机分子浓度的增大而增加;随放置温度的升高、表面活性剂的加入而减小。利用荧光光谱仪测试2,7-二乙烯吡啶基-9,9′-二乙基芴的氮甲基吡咯烷酮(NMP)溶液和2,7-二乙烯吡啶基-9,9′-二乙基芴纳米微粒体系的荧光激发和发射光谱,发现纳米微粒体系的荧光激发光谱和发射光谱分别在403、530nm附近出现新的电荷转移(CT)峰。     

香豆素类肼荧光探针的合成及应用

以4-三氟甲基-7-羟基香豆素为荧光母体,4-溴丁酰基为识别基团,合成了一种基于分子内电荷转移机制的肼荧光探针XS-1,其结构经核磁共振氢谱(¹H NMR),核磁共振碳谱(¹³C NMR)和高分辨质谱(HRMS)确证,通过荧光发射光谱研究了探针对肼的响应性能。结果表明,在磷酸盐缓冲液(10 mmol,pH7.4)中,探针XS-1能通过荧光增强作用识别肼,并具有很好的选择性和抗干扰能力,检出限为0.11μmol/L。探针XS-1具有斯托克斯位移大(144 nm)、线性范围宽(0～400μmol/L)、合成简便以及能在水相中检测肼等优点,并已成功用于实际水样中肼的定量检测。     

1,8-萘酰亚胺衍生物的合成、表征及电存储性能

本文以三苯胺结构作为电子给体,与三种接有不同吸电子基团的1,8-萘酐反应合成了具有电子给-受体结构的N-(4-三苯胺)-1,8-萘酰亚胺(NA-ATPA)、N-(4-三苯胺)-(4-氰基)-1,8-萘酰亚胺(NA(CN)-ATPA)和N-(4-三苯胺)-(4-硝基)-1,8-萘酰亚胺(NA(NO_2)-ATPA),并对它们的结构进行了表征。利用紫外可见光谱、荧光发射光谱和循环伏安法对产物的光物理性能和电化学性能进行了测试,并测试了其存储行为,结果显示NA-ATPA表现出易失的静态随机存储行为(SRAM),NACN-ATPA表现出非易失的闪存型存储(Flash),NA(NO_2)-ATPA表现出非易失只读型存储(WORM)。三种萘酰亚胺对存储行为中高导态的维持能力逐渐增强,其原因是引入的吸电子基团的吸电子性越强,其LUMO值和能隙值降低的越多,越利于电荷转移,形成更稳定的电荷转移络合物。另外,本文还对原料和产物的电子结构、分子轨道和能级进行了分子模拟计算,研究了三种化合物基态和激发态的差别,并对其电子转移过程进行了理论分析。     

绿色单峰发光聚(9,9-二烯丙基芴)的合成及其发光机制

为了得到绿色单峰发光的聚合物材料, 我们设计并合成了9位取代的二烯丙基芴单体, 在NiCl₂的催化下, 合成了可溶的聚芴衍生物, 聚(9,9-二烯丙基芴)(PAF). 较短的烯丙基链既可以增加聚芴的溶解度, 双键的存在又有利于聚芴发生分子间聚集而得到绿光发射的有机电致发光器件(OLED). PAF在溶液和薄膜状态下的荧光峰分别位于403和456 nm的蓝光区域, 而其器件ITO/PEDOT:PSS/PAF/LiF/Al(其中, ITO为氧化铟锡, PEDOT为聚(3,4-乙撑二氧噻吩), PSS为聚苯乙烯磺酸盐)的电致发光峰却红移至绿光区域(532 nm), 得到绿色单峰发光. 紫外吸收光谱、荧光发射光谱、红外光谱以及原子力显微镜(AFM)图像的结果证明, 造成PAF电致发绿光的机制为聚合物分子间聚集.     

2,7-二乙烯吡啶基-9,9''''-二乙基芴纳米颗粒的粒度测量及荧光光谱的研究

利用二次沉淀法制备出不同粒径(101.6～516.9 nm)的2,7-二乙烯吡啶基-9,9'-二乙基芴有机纳米微粒.通过激光粒度仪测试发现:其平均粒度和多分散指数(PDI)值随着放置时间的增长、有机分子浓度的增大而增加;随放置温度的升高、表面活性剂的加入而减小.利用荧光光谱仪测试2,7-二乙烯吡啶基-9,9'-二乙基芴的氮甲基吡咯烷酮(NMP)溶液和2,7-二乙烯吡啶基-9,9'-二乙基芴纳米微粒体系的荧光激发和发射光谱,发现纳米微粒体系的荧光激发光谱和发射光谱分别在403、530 nm附近出现新的电荷转移(CT)峰.     

红光材料双β-二酮铕配合物的合成、结构与发光性质

通过分子设计,合成了一种新颖的双β-二酮配体N-正丁基-3,6-二(1,3-丁二酮基)咔唑(H2L)及其铕配合物.单晶X衍射测定了H2L的晶体结构.配体和配合物的红外光谱和电子光谱表明,Eu3 与H2L发生螯合配位.配体的荧光光谱是宽带的蓝色发光,属H2L*→H2L跃迁,而配合物的溶液荧光光谱除了配体的蓝光带外,还有611nm处的Eu3 的特征红光,属5D0→7F2跃迁带;配合物的光致发光光谱只有613nm处为Eu3 的特征红光,属5D0→7F2跃迁带,峰形尖锐,单色性好,表明该配合物为一种潜在的红色发光材料.     

螺二芴基可溶性共聚物的合成及发光性能

以9,9'-螺二芴和不同链长的二烷氧基苯为单体, 以FeCl3为催化剂, 采用化学氧化法合成了一系列聚合物发光材料. 溶解度测试表明, 共聚物在二氯甲烷、四氢呋喃(THF)、氯仿等极性溶剂中具有良好的溶解性. 利用核磁共振氢谱(1H NMR)、傅里叶变换红外(FT-IR)光谱、紫外-可见(UV-Vis)光谱和荧光(PL)光谱研究了共聚物的化学结构和发光性能, 结果表明共聚物在二甲基亚砜(DMSO)中均发射蓝色荧光, 最大吸收和荧光发射峰分别为356和413 nm. 以硫酸奎宁溶液作为参比, 测得共聚物的荧光量子效率为0.69至0.77. 通过循环伏安法(CV)测得所合成的三种共聚物的最高占有分子轨道(HOMO)能级均位于-5.85至-5.69 eV之间.     

3,6-二(蒽醌-2-乙烯基)-N-乙基咔唑的合成及光谱性质研究

利用N-乙基咔唑和2-甲基蒽醌合成了一种A-π-D-π-A分子内电荷转移型化合物3,6-二(蒽醌-2-乙烯基)-N-乙基咔唑,并对该化合物的光化学和光物理行为进行了研究。荧光光谱表明,该化合物的发光行为对溶剂的极性非常敏感,随着溶剂极性的增大,其荧光最大发射峰有明显红移,并在强极性溶剂乙腈中出现了双荧光现象。该化合物的激发态和基态的偶极矩差值△μ为3.014D,发生了从给体(咔唑基)的N原子到分子两端受体(蒽醌)的羰基的分子内电荷转移。     

几种具有电子给-受体结构的两亲性化合物的合成及鉴定

设计并合成了3种含有巴比妥酸基团的具有电子给-受体结构的两亲性有机分子,经元素分析、红外光谱、核磁共振谱确定了其结构,研究了醛与巴妥酸缩合的条件及醛的反应活性与其IR、NMR谱的关系.     

环己烷中苯甲酰苯胺的双重荧光--分子内电荷转移的直接光谱证据

自从O Connell等［1］报道苯甲酰苯胺(BA)在EPA玻璃体中异常的长波长荧光发射特性以来, 已有众多学者尝试解释该"异常"荧光的发射态性质［2～12］. Kasha等［2～7］认为长波长荧光是质子转移(PT)和电荷转移(CT)两种激发态发射的叠加, 而Azumaya等［8］则认为发射态只包含分子内扭转电荷转移(TICT)态. 应该指出的是, 在上述研究中, 电荷转移态的指认并无有力的实验事实, 而主要是依据与具有CT双重荧光的对二甲氨基苯甲氰［13,14］的类比. 显然, 有关苯甲酰苯胺的长波长荧光发射态的准确性质仍待实验阐明     

Novel chemosensor for alkaline earth metal ion based on 9-anthryl aromatic amide using a naphthalene as a TICT control site and intramolecular energy transfer donor

Novel fluorescent chemosensors 1 and 2 with two different fluorophores (naphthalene and anthracene) at the both ends of polyether was synthesized. These compounds based on 9-anthryl aromatic amide adopted a naphthalene as a TICT controller and an intramolecular energy transfer source. Compound 1 shows high fluorescence efficiency upon complexation with metal ion, and the fluorescence efficiency of 2 is regulated by metal ionic size.     

Determination of the Critical Micelle Concentration of Surfactant in Aqueous Solution by Twisted Intramolecular Charge Transfer Probe DMABN

With p-N,N-dimethylaminobenzonitrile (DMABN) as a probe, the variations of the intensity of its second fluorescence emission (I_a) and the corresponding characteristic wavelength (λ_a) with the surfactant concentration (c), here the examined surfactants (C₁₂TABr, SDS, C₁₂E₂₃, and C₁₂-3-C₁₂·2Br), were measured by Hitachi F4500 fluorescence spectrophotometer. The results showed that both the break points on the I_a–c curve and the minimum of the derivative variation corresponding to the λ_a–c curve agreed very well with the critical micelle concentration (cmc) of the surfactant in aqueous solution as measured by surface tension technique. Due to strong aggregation of C₁₂-3-C₁₂·2Br in aqueous solution, the information about loose micellar structure could be obtained by its λ_a–c curve.     

Effects of cyclodextrins and saccharides on dual fluorescence of N,N-dimethyl-4-aminophenylboronic acid in water

N,N-Dimethyl-4-aminophenylboronic acid (DMAPB) showed pH-dependent dual fluorescence at 360 and 462 nm originating from locally excited (LE) and twisted intramolecular charge transfer (TICT) states, respectively, in aqueous solutions. Upon complexation with α-CD, LE fluorescence was markedly increased while TICT fluorescence was decreased. In contrast, both LE and TICT fluorescence were increased when DMAPB was complexed with β-CD. The fluorescence variations enabled us to determine the 1:1 and 1:2 binding constants of the DMAPB/α-CD complex to be 10 and 40 M⁻¹, respectively, and the 1:1 binding constant of the DMAPB/β-CD complex to be 635 M⁻¹. The dual fluorescence of DMAPB alone was found to be a good indicator of saccharide sensing. Under weakly alkaline conditions, saccharides suppressed TICT fluorescence while increasing LE fluorescence. Among the saccharides investigated, d-fructose induced the largest fluorescence change, followed by d-ribose and d-glucose. This order is consistent with the stability of the boronate esters of DMAPB with saccharides. In the presence of β-CD, saccharide selectivity was unchanged, while fluorescence was amplified. These results demonstrate the superiority of the supramolecular DMAPB/β-CD complex to DMAPB alone as a ratiometric fluorescence sensor for saccharides in water.     

交叉共轭型烯酮化合物分子内的电荷转移

近年来有关分子内电行转移化合物的设计、合成及其光谱、光物理并为的研究引起＾们极大的兴趣[1－4]．这类化合物在激发态时常表现出一些特殊的性能，如出现扭曲的分子内电行转移（TICT）现象，并在荧光光谱中出现奇特的K重发光和在荧光强度与温度的依赖关系上出现反常等[5]．TICT态的形成强烈的依赖于化合物分子本身的结构，屯依赖于化合物分子所处环境的极性、温度和粘度等因素同．带有强给电子基（CH3卜N烁酮类化合物是一类有效的光敏剂．它广泛的应用于如光引发聚合、全息成像[7-8]等不同领域．同时其光谱及光物理行为的研究也已兑…     

Synthesis and Cation-Mediated Electron Transfer in Fluorescence Quenching of Donor-Acceptor Podands

Covalently linked donor-acceptor (D-A) systems have been designed to stUdyphotoinduced electron transfer (PET) in a way that mimics the process occurring innatural photosynthesis'. For a given D-A system, the rate of PET depends on the D-Adistance and relative orientation of the chromophores. For stLldies of this dependence,rigid dyads are generally used2. In contrast, if the spacer binding the chromophores isflexible, large conformational changes can occur following PET Hence, the syst…     

A selective colorimetric chemosensor for thiols based on intramolecular charge transfer mechanism

Compound 1 as an electron donor-acceptor compound with N,N-dimethylaniline and quinone units was designed for a highly selective colorimetric determination of thiol-containing amino acids and peptides, by making use of the unique reactivity of thiol towards quinone. Compound 1 shows a strong intramolecular charge transfer (ICT) band around 582 nm; but, it decreased after addition of either cysteine (Cys) or glutathione (GSH). Moreover, the ICT band intensity at 582 nm decreased linearly with the increasing concentrations of Cys or GSH. The interference from other amino acids can be neglected. Therefore, compound 1 can be employed as a selective colorimetric visual chemosensor for thiol-containing amino acids and peptides.     

巨型给-受体分子开关化合物的合成及性质研究

以构象可变的间苯二酚杯[4]芳烃孔穴化合物(Cavitand)为分子开关母体, 合成了一种新颖的给-受体(D-A)型分子开关化合物(化合物1), 该分子是目前已知分子量最大的D-A型间苯二酚杯[4]芳烃Cavitand (分子量为3064.9966). 其中, 以卟啉为给体, 富勒烯为受体. 在pH诱导下, 化合物1可发生构象变化, 即由原来的关闭状(vase)转为打开状(kite); 而在降低温度和引入Zn²⁺的条件下, 不能促使化合物1发生构象变化. pH诱导构象发生变化的原因, 是酸的加入会导致喹喔啉手臂上的N原子发生质子化, 从而使得形成的静电排斥作用促使手臂之间相互远离. 此外, 对化合物1的光物理性质研究表明, 存在卟啉向富勒烯的单线态能量转移, 其单线态能量转移速率常数为1.1×10⁷ s^-1, 单线态能量转移效率为9.63%.     

吩噻嗪衍生物的分子内电荷转移激发态的特性

A series of N-bonded donor-acceptor derivatives of phenothiazine containing benzene (PHPZ), anisole (ANPZ), pyridine (PYPZ), naphthalene (NAPZ), acetophenone (PEPZ), and benzonitrile (BNPZ) as an electron acceptor was synthesized. Their photophysical properties were investigated in solvents of different polarities by absorption and emission techniques. These studies clearly reveals the existence of an intramolecular charge transfer (ICT) excited state in the latter four compounds. The solvent dependent Stokes shift values were analyzed by the modified Lippert-Mataga equation to obtain the excited state dipole moment values. The large excited state dipole moment suggests that the full electron transfer takes place in the A-D systems. The obtained values of redox potentials indicate that both subunits of all the A-D molecules studied interact very weakly in the ground states. The results obtained from the analysis of the CT fluorescence spectra confirm that the small conformational changes accompanying excited state charge transfer, the twist angle between the donor and acceptor moieties in the excited 1CT state seems to be similar to that in the ground state.