纳米晶TiO2电极上半菁衍生物光敏染料

合成了具有不同共轭链长度的吡啶盐类及喹啉盐类半菁染料(E)-N-(4-磺酸丁基)-4-[2-(4-N, N-二甲基氨基苯基)乙烯基]吡啶鎓盐(P1)、(E)-N-(4-磺酸丁基)-4-[2-(4-N, N-二甲基氨基苯基)丁二烯基]吡啶鎓盐(P2)、(E)-N-(4-磺酸丁基)-4-[2-(4-N, N-二甲基氨基苯基)乙烯基]喹啉鎓盐(Q1)以及(E)-N-(4-磺酸丁基)-4-[2-(4-N, N-二甲基氨基苯基)丁二烯基]喹啉鎓盐(Q2).研究了它们的光物理性质，并将它们用作TiO2纳米晶电极的光敏化剂引入光电化学电池.与含有乙烯基共轭桥的染料P1和Q1相比，含有丁二烯基共轭桥的染料P2和Q2在甲醇和氯仿中的最大吸收均发生一定程度的红移，而且吸收光谱变宽.这两类染料都能很好地吸附于TiO2电极上.在比较了四个染料的吸收光谱、摩尔消光系数以及在TiO2电极表面的吸附量后，发现Q1具有最好的光电转化性质.     

TiO2纳米晶电极上半菁衍生物分子设计中空间位阻效应的研究

设计合成了具有不同空间位阻的吡啶盐类和喹啉盐类半菁染料(E)-N-(4—磺酸 根丙基)-4-[2-4（4-N，N-二乙基氨基苯基）乙烯基]吡啶鎓盐（EPS），（E）-N-(4- 磺酸根丁基）-4-[2-(4-N,N-二乙氨基苯基）乙烯基]吡啶鎓盐（EPS4）和（E） -N-（4-磺酸根丁基）-4-[2-（4-N，N-二乙基氨基苯基）喹啉鎓盐（EQS4），研究了它们 的光物理性质，并将它们用作TiO2纳米晶电极的光敏化剂引入光电化学电池中。 研究发现:对于吡啶类半菁染料而言，无论是以三个亚甲基或是以四个亚甲基来连接 吸附基团RSO3^-和发色团时，单个的EPS和EPS4分子的光电响应行为一致．但是由于 以三个亚甲基来连接时，与EPS4相比，染料EPS的空间位阻相对较小，有利于其在 多孔膜上的吸附，最终结果是染料EPS对TiO2纳米晶电极的敏化作用好于EPS4．以喹啉 环为受电子基团的染料EQS4与同样含有四个亚甲基的以吡啶环为受电 子基团的EPS4相比，单个EQS4分子的光电响应行为虽然好于EPS4分子，但由于 EQS4分子间的空间位阻较大，影响了它在多孔电极上的吸附，致使其敏化的太阳能 电池的总光电转换效率有所下降．     

Y型三苯胺生色分子的二阶极化率

通过Knoevenagel反应合成了3个Y型三苯胺生色分子N,N-二{4-[2-(2-苯并噻唑基)乙烯基]苯基}苯胺(BBtVPA)、N,N-二{4-[1-(2-苯并噻唑基)-1,3-丁二烯-4-基]苯基}苯胺(BBtBPA)和N,N-二{4-[1-(2-二氰基甲叉-3-氰基-5,5-二甲基-2,5-二氢-4-呋喃基)-1,3-丁二烯-4-基]苯基}苯胺(BCfBPA), 以及4个一维偶极分子4-[2-(2-苯丙噻唑基)乙烯基]-N,N-二苯基苯胺(BtVPA)、1-(2-苯并噻唑基)-4-[4-(N,N-二苯基)氨基]苯基-1,3-丁二烯(BtAPB)、1-[(2-二氰基甲叉-3-氰基-5,5-二甲基-2,5-二氢)-4-呋喃基]-4-[4-(N,N-二苯基氨基)]苯基-1,3-丁二烯(CfAPB)和4-[2-(2-二氰基甲叉-3-氰基-5,5-二甲基-2,5-二氢呋喃-4-基)乙烯基]-N,N-二苯基苯胺(CfVPA). 测定了生色分子的紫外吸收和荧光性质, 在二氯甲烷中, Y型分子BBtVPA, BBtBPA和BCfBPA的最大吸收波长分别为425, 443和613 nm, 比偶极分子红移了约30 nm, Y型分子BBtVPA和BBtBPA的最大荧光发射峰分别位于516和558 nm, 比偶极分子稍有红移. 根据双能级模型理论, 用溶致变色法测定了生色分子的二阶非线性极化率(β), Y型分子BBtVPA, BBtBPA和BCfBPA的β0分别为40×10-30, 64×10-30和238×10-30 esu, 比相应的偶极分子分别提高了0.9~2.8倍. 结果表明, 提高吸电子基团强度, 增大共轭体系有助于获得更大的β值.     

TiO2纳米晶电极上半菁衍生物分子设计中空间位阻效应的研究

设计合成了具有不同空间位阻的吡啶盐类和喹啉盐类半菁染料 (E) N ( 4 磺酸根丙基 ) 4 [2 ( 4 N ,N 二乙基氨基苯基 )乙烯基 ]吡啶盐 (EPS) ,(E) N ( 4 磺酸根丁基 ) 4 [2 ( 4 N ,N 二乙基氨基苯基 )乙烯基 ]吡啶盐 (EPS4)和 (E) N ( 4 磺酸根丁基 ) 4 [2 ( 4 N ,N 二乙基氨基苯基 )乙烯基 ]喹啉盐 (EQS4) ,研究了它们的光物理性质 ,并将它们用作TiO2纳米晶电极的光敏化剂引入光电化学电池中 .研究发现 :对于吡啶类半菁染料而言 ,无论是以三个亚甲基或是以四个亚甲基来连接吸附基团RSO-3 和发色团时 ,单个的EPS和EPS4分子的光电响应行为一致 .但是由于以三个亚甲基来连接时 ,与EPS4相比 ,染料EPS的空间位阻相对较小 ,有利于其在多孔膜上的吸附 ,最终结果是染料EPS对TiO2 纳米晶电极的敏化作用好于EPS4.以喹啉环为受电子基团的染料EQS4与同样含有四个亚甲基的以吡啶环为受电子基团的EPS4相比 ,单个EQS4分子的光电响应行为虽然好于EPS4分子 ,但由于EQS4分子间的空间位阻较大 ,影响了它在多孔电极上的吸附 ,致使其敏化的太阳能电池的总光电转换效率有所下降     

非平面分子内共轭电荷转移化合物的发光行为

合成了两种分子内共轭的电荷转移化合物:2,3二氰基-5,7-二[2-[(4-二甲氨基)-苯基]乙烯基]-6H-1,4-二氮杂卓(1)及2,3-二氰基-5-苯基-7-[2-[(4-二甲氨基)-苯基]乙烯基]-6H-1,4-二氮杂卓(2). 用UV-Vis吸收光谱和荧光光谱法对它们在不同极性溶剂中的光致变色行为进行了研究.结果表明，化合物的荧光最大发射波长与溶剂的极化参数ET(30)值可在一定范围内构成线性关系，而单臂共轭的化合物2比双臂共轭的化合物1有着更大的Stoke’s位移和基态/激发态偶极矩差.对得到的结果进行了初步的讨论.     

微波促进下6,7-二氢-5H-环戊二烯并[4,5]噻吩并[2,3-d]嘧啶-4-胺的简便合成（英文）

微波辐射条件下,以乙醇作溶剂,环戊酮、丙二腈与单质硫反应得到2-氨基-5,6-二氢-4H-环戊二烯[b]噻吩-3-腈(1),1与N,N-二甲基甲酰胺二甲基缩醛在微波辐射条件下反应得到N-(3-氰基-5,6-二氢-4H-环戊二烯[b]-硫基-2-基)-N,N-二甲基亚甲基酰胺(2),进一步在微波辐射条件下由N-(3-氰基-5,6-二氢-4H-环戊二烯[b]-硫基-2-基)-N,N-二甲基亚甲基酰胺(2)与取代芳香胺反应制得目标化合物.合成的25个目标化合物通过熔点测定和核磁共振氢谱分析、红外光谱、高分辨质谱对其结构进行确证.     

达比加群酯中间体3-【【【2-{[(4-氰基苯基)氨基]甲基}-1-甲基-1H-苯并咪唑-5-基】羰基】(吡啶-2-基)氨基】丙酸乙酯的合成

以对氨基苯腈为起始原料,经胺化反应制得N-(4-氰基苯基)甘氨酸(4);4与N-[3-氨基-4-(甲基氨基)苯甲酰基]-N-2-吡啶-β-丙氨酸乙酯(5)经酰胺化后经闭环反应,合成了达比加群酯的关键中间体——3-【【【2-{[(4-氰基苯基)氨基]甲基}-1-甲基-1H-苯并咪唑-5-基】羰基】(吡啶-2-基)氨基】丙酸乙酯,总收率79.6%,其结构经~1H NMR和ESI-MS确证。     

半菁类染料敏化太阳能电池的光电化学性能研究

研究了三种不同长度碳链取代的半菁类染料2-[4-(N,N-二羧乙基)氨基]苯乙烯基-1,3,3-三甲基苯并吲哚鎓碘(BIDC1)、2-[4-(N,N-二羧乙基)氨基]苯乙烯基-1-丁基-3,3-二甲基苯并吲哚鎓碘(BIDC2)和2-[4-(N,N-二羧乙基)氨基]苯乙烯基-1-辛基-3,3-二甲基苯并吲哚鎓碘(BIDC3)敏化太阳能电池的光电化学性能。其中BIDC1的敏化效果最好,在100mW/cm2氙灯光源下,开路电压、短路电流、填充因子和转换效率分别是430mV、1.31mA/cm2、0.52、0.29%。研究表明,随着半菁染料碳链取代基的增长,光电转换效率逐渐降低。     

2,4和8-支噁二唑衍生物的三光子吸收和三光子上转换荧光

用飞秒Ti:sapphire激光测定了3个对称噁二唑衍生物4-{N,N-双[4-(4-[5-(4-叔丁基苯基)-1,3,4-噁二唑-2]苯乙烯基)苯基]氨基}苯甲醛(Bis-oxa)、2,5-双{4-[2-N,N-双(4-{4-[5-(4-叔丁基苯基)-1,3,4-噁二唑-2]苯乙烯基}苯基)氨基苯乙烯基]苯基}-1,3,4-噁二唑(Quadri-oxa)和2,5-双(4-{2-N,N-双[({3,5-二[5-(4-叔丁基苯基)-1,3,4-噁二唑-2]苯基}乙烯基)苯基]氨基苯乙烯基}苯基)-1,3,4-噁二唑(Octu-oxa)的三光子吸收谱和三光子荧光光谱. 在1260 nm飞秒激光激发下, 2,4和8-支噁二唑衍生物的三光子吸收系数分别为5.0×10^-5, 10.0×10^-5和10.0×10^-5 cm³/GW², 三光子频率上转换荧光发射波长分别为533, 544和551 nm. 研究了多支化合物线性吸收和透过、单光子荧光及量子产率、荧光寿命、多光子荧光光谱和三光子吸收系数谱. 对称多支噁二唑衍生物具有很强的三光子吸收和上转换荧光性质.     

吡唑啉衍生物与溶剂相互作用的研究

通过对一类吡唑啉衍生物（1-苯基-3-（N，N-二甲基氨基苯乙烯）-5-（4-N，N-二甲基氨基苯基）-2-吡唑啉）在不同溶剂中的光谱行为，研究了该衍生物和溶剂分子间的一般相互作用和特殊相互作用．发现利用吡唑啉溶液的荧光猝灭现象能对其和溶剂分子间不同相互作用问题提供有价值的信息．     

Oligothiophene-containing coumarin dyes for efficient dye-sensitized solar cells

We have developed oligothiophene-containing coumarin dyes fully functionalized for dye-sensitized nanocrystalline TiO(2) solar cells (DSSCs). DSSCs based on the dyes gave good performance in terms of incident photon-to-current conversion efficiency (IPCE) in the range of 400-800 nm. A solar energy-to-electricity conversion efficiency (eta) of 7.4% was obtained with a DSSC based on 2-cyano-3-[5'-(1,1,6,6-tetramethyl-10-oxo-2,3,5,6-tetrahydro-1H,4H,10H-11-oxa-3a-aza-benzo[de]anthracen-9-yl)-[2,2']bithiophenyl-5-yl]acrylic acid (NKX-2677) under simulated AM 1.5G irradiation (100 mW cm(-2)) with a mask: short-circuit current density (J(sc)) = 13.5 mA cm(-2); open-circuit voltage (V(oc)) = 0.71 V; fill factor (FF) = 0.77. Transient absorption spectroscopy measurements indicated that electron injection from NKX-2677 to the conduction band of TiO(2) is very rapid (<100 fs), which is much faster than the emission lifetime of the dye (1.0 ns), giving a highly efficient electron injection yield of near unity.     

Effects of tethering alkyl chains for amphiphilic ruthenium complex dyes on their adsorption to titanium oxide and photovoltaic properties

Ruthenium (II) complex dye, Ru(4,4'-dicarboxyl-2,2'-bipyridine)(4-nonyl-2,2'-bipyridine) (NCS)(2), (denoted as RuC9) tethering single alkyl chain was synthesized and well characterized. Its adsorption behavior onto the mesoporous TiO(2) and photovoltaic properties were compared with Z907 which has similar chemical structure but tethers two alkyl chains. RuC9 dyes tend to aggregate into vesicles in the acetonitrile/t-butanol co-solvent as a result of the amphiphilic structure, whereas Z907 dyes aggregate into lamellae. The dye-sensitized solar cell (DSSC) with RuC9 dye showed higher short-circuit photocurrent than that with Z907, attributing to its higher molar optical extinction coefficient and more adsorption amount onto the mesoporous TiO(2). However, the DSSC with Z907 dye has higher open-circuit photovoltage and power conversion efficiency, presumably due to the fact that Z907 with more alkyl chains formed a molecular layer with higher hydrophobicity. It reduced the charge recombination in the interface between the dye-sensitized mesoporous TiO(2) and electrolyte as verified by the electrochemical impedance spectroscopy and intensity modulated photocurrent and photovoltage spectroscopies.     

Solvatochromic azamethine dyes for probing the polarity of gold-cluster-functionalized silica particles

Azamethine dyes of the merocyanine type [4-(N,N-di-n-butylamino)-2-methylphenyl][2,4-di-keto-3-[N'-(n-hexyl)]-5-cyano-6-methyl-3-pyridinio]-1-azamethine (1) and [4-(N,N-diethylamino)-2-(N'-tert-butylcarboxy)-amidophenyl]-[2,4-diketo-3-[N"-(n-hexyl)]-5-cyano-6-methyl-3-pyridinio]-1-azamethine (2) have been used as surface-polarity indicators for gold-cluster-functionalized silica particles. Their UV/Vis absorption maxima range from about lambda=600 to 700 nm as a function of solvent polarity and are clearly separated from the surface plasmon UV/Vis absorption band of gold (lambda approximately 520-540 nm). Solvatochromism of both dyes has been investigated in 26 solvents of different polarity. The positive solvatochromic band shifts of 1 and 2 can be well expressed in terms of the empirical Kamlet-Taft solvent polarity parameters alpha and pi*. They are mainly sensitive to the dipolarity/polarizability (pi* term; 70-75 %) and HBD (hydrogen-bond donating) acidity (alpha term) of the solvent. Both dyes adsorb readily on functionalized silica samples from solutions in 1,2-dichloroethane or cyclohexane. The surface polarities of gold-cluster-functionalized silica particles, with and without co-adsorbed L-cysteine and poly(ethylenimine), have been investigated by using these solvatochromic dyes. The specific interaction of dye 2 with cysteine has been examined independently by quantum-chemical calculations by using the AM1 and PM3 methods.     

Design and synthesis of novel antimicrobial acyclic and heterocyclic dyes and their precursors for dyeing and/or textile finishing based on 2-N-acylamino-4,5,6,7-tetrahydro-benzo[b]thiophene systems

A series of novel polyfunctionalized acyclic and heterocyclic dye precursors and their respective azo (hydrazone) counterpart dyes and dye precursors based on conjugate enaminones and/or enaminonitrile moieties were synthesized. The dyes and their precursors are based on 2-cyano-N-(3-cyano-4,5,6,7-tetrahydrobenzo[b]thiophen-2-yl)-acetamide, 2-ethoxycarbonyl-N-(3-cyano-4,5,6,7-tetrahydrobenzo[b]thiophen-2-yl)-acetamide or 2-phenylcarbamoyl-N-(3-cyano-4,5,6,7-tetrahydrobenzo[b]thiophen-2-yl)-acetamide systems as precursors. The latter compounds were used to synthesize polyfunctional thiophene-, thiazole-, pyrazole, pyridine-, pyrimidine-, oxazine-, as well as acyclic moieties. The dyes and dye precursors were characterized by elemental analysis and spectral methods. All dyes and their precursors were screened in vitro and evaluated for both their antibacterial and antifungal activities. MIC data of the novel dye systems and their respective precursors showed significant antimicrobial activity against most tested organisms. Some compounds exhibited comparable or even higher efficiency than selected standards. Dyes were applied at 5% depth for disperse dyeing of nylon, acetate and polyester fabrics. Their spectral characteristics and fastness properties were measured and evaluated.     

Optical Properties of Dye Based on Hydroxamate Improved with Designed Tridentate Ligands for Dye Sensitized Solar Cell: a Theoretical Study

A density function theory(DFT) study was made on three dyes based on hydroxamate with different ligands[terpyridine, isothiocyanate(NCS) and 2,2'-bis(thienyl)-tripyrrinate(2-BTTP)] to investigtate their device performance optimization in dye sensitized solar cell(DSSC). Based on the adsorbed dye on TiO₂ (101) surface, the ground state geometry structures, electronic structures, absorption spectra and correspongding charge transfer properties were analysed in detail. The results indicate that the ligand replacement of terpyridine by NCS and 2-BTTP improves the low-energy region absorption of hydroxamate based dyes significantly. The electron injection and light harvesting capability of hydroxamate based dyes are enhanced by NCS and 2-BTTP ligands as well. In the visible region, hydroxamate based dyes have the potentials to become panchromatic light absorbers according to our research.     

4 + 2] cycloadditions of nitroalkenes in water. Highly asymmetric synthesis of functionalized nitronates.

The [4 + 2] cycloadditions of (E)-2-aryl-1-cyano-1-nitroalkenes 1 with achiral and enantiopure vinyl ethers 2 and 3 carried out in sole water are reported. These reactions occur in a heterogeneous phase under mild conditions and are fast and highly stereoselective. By using (-)-N,N-dicyclohexyl-(1S)-isoborneol-10-sulfonamide as a chiral auxiliary, the cycloadditions are totally asymmetric. The face selectivity is discussed in terms of the shape of the chiral auxiliary and the reactive conformation of vinyl ether.