超声法合成新型3-(5-氯/苯氧基-3-甲基-1-苯基-4-吡唑基)异噁唑N-取代苯基去甲去氢斑蝥酰亚胺衍生物

去甲去氢斑蝥素与取代芳胺反应得到了一系列N-取代苯基去甲去氢斑蝥酰亚胺, 再与5-氯/苯氧基-4-(α-氯-α-肟基甲基)-3-甲基-1-苯基吡唑甲酰基氯代肟发生1,3-偶极环加成反应生成一系列未见报道的3-(5-氯/苯氧基-3-甲基-1-苯基-4-吡唑基)异噁唑N-取代苯基去甲去氢斑蝥酰亚胺衍生物. 所合成化合物经元素分析, IR, ¹H NMR, ¹H-¹HCOSY, NOESY确证结构.     

含氨基酸席夫碱的5-氟尿嘧啶衍生物的合成及其抗肿瘤活性

以N 1-(2-四氢呋喃烷基)-5-氟尿嘧啶为原料, 与1,4-二溴丁烷反应, 得到N¹-(2-四氢呋喃烷基)-N³-(4-溴丁基)-5-氟尿嘧啶(2), 最后与氨基酸席夫碱的钾盐缩合, 得到13个新的目标化合物3. 其结构经IR, ¹H NMR, MS和元素分析确证. 初步的体外抗肿瘤试验结果表明, 目标化合物具有一定的抗肿瘤活性.     

苯乙烯相连的卟啉-三芳胺共轭体的合成及表征

以三芳胺甲醛和4-二乙氧基甲基苄基亚磷酸二乙酯为原料经Wittig-Horner反应制得化合物4-[4-(N,N-二苯胺基)苯乙烯基]苯甲醛, 4-[4-(N,N-二对甲苯胺基)苯乙烯基]苯甲醛和4-[4-(N,N-二对甲氧基苯胺基)苯乙烯基]苯甲醛, 这些化合物与吡咯在丙酸中回流得到一类通过苯乙烯相连的卟啉-三芳胺共轭体, 并采用¹H NMR, ¹³C NMR, MS及UV-vis对卟啉化合物的结构进行了表征.     

1,3-二(乙氧基甲基)-5-N,N-二甲氨基-6-甲基尿嘧啶的合成

报道了1,3-二(乙氧基甲基)-5-N,N-二甲氨基-6-甲基尿嘧啶方便、高产率的合成方法. 以6-甲基尿嘧啶(1)为起始物, 经硝化、嘧啶N¹,N ³-烷基化、还原及氨基甲基化, 首次高产率合成了1,3-二(乙氧基甲基)-5- N,N -二甲氨基-6-甲基尿嘧啶(5), 并对其化学结构进行了表征.     

N-{4-{N-甲基-N-[2-羟基-3-(2,4-二氧代-1,2,3,4-四氢嘧啶-5-基)氨基]丙基}氨基-3-溴}苯甲酰基-L-谷氨酸二乙酯及其衍生物的合成

报道了N-{4-{N-甲基-N-[2-羟基-3-(2,4-二氧代-1,2,3,4-四氢嘧啶-5-基)氨基]丙基}氨基-3-溴}苯甲酰基-L-谷氨酸二乙酯及其衍生物的简便合成方法. 分别以4-氨基苯甲酸乙酯和4-氨基苯甲酰基-L-谷氨酸二乙酯为起始物, 经甲基化、烯丙基化、溴羟基化、环氧化、开环、脱保护等反应首次合成了6个新型5-取代氨基嘧啶类化合物, 并通过¹H NMR, ¹³C NMR 和MS对其化学结构进行了表征. 初步生物活性结果表明, 苯环侧链的L-谷氨酸酯部分是此类化合物抑制人重组二氢叶酸还原酶的必需结构.     

微波辐射合成N-(2-氯-1-氧-5-吡啶甲基)二甲酰亚胺类化合物和生物活性研究

以二甲酰亚胺钾3a～3g与2-氯-5-氯甲基吡啶的N原子氧化后得到的2-氯-1-氧-5-氯甲基吡啶发生亲核取代反应, 用传统和微波两种方法合成了7种未见文献报到的化合物N-(2-氯-1-氧-5-吡啶甲基)二甲酰亚胺类化合物4a～4g. 对比两种合成方法, 在常压下, 微波辐射作为反应热源具有用时少、环境友好、易纯化和产率高的特点. 这些目标化合物4a～4g的结构经元素分析结果, IR, GC-MS, ¹H NMR, ¹³C NMR确证. 初步的生物活性测定结果表明, N-(2-氯-1-氧-5-吡啶甲基)二甲酰亚胺类部分化合物具有良好的杀虫活性.     

二-吡啶氧基-轴向取代-四-α-(3-戊氧基)锡(IV)酞菁的合成与表征

以3-硝基邻苯二甲腈为起始原料, 与正戊醇反应合成3-戊氧基邻苯二甲腈(1), 然后在高温溶剂1-氯萘中经缩聚反应合成二氯-轴向取代-四-α-(3-戊氧基)锡酞菁(2), 2进一步与2-羟基吡啶在N,N-二甲基甲酰胺中合成二-吡啶氧基-轴向取代-四-α-(3-戊氧基)锡酞菁配合物3, 同时对相关化合物分别进行了元素分析, IR, ¹H NMR, UV/Vis, 荧光和质谱表征.     

以2-苯氧乙基为氮支链的[18]和[15]环系氮支套索冠醚的合成及其络合性能

以2-苯氧乙醇为起始剂, 合成了两种新型氮支套索冠醚: N-(2-苯氧乙基)单氮杂-18-冠-6 (18CE)与N-(2-苯氧乙基)单氮杂-15-冠-5 (15CE). 通过红外光谱、核磁共振氢谱和紫外光谱表征了新冠醚及其中间体的结构. 用电导滴定法研究了两冠醚与Na^＋, K^＋, Ag^＋, NH^4＋, Ni^2＋, Cu^2＋, Pb^2＋和Co^2＋在25 ℃的配位作用, 计算了1∶1配合物的稳定常数. 实验结果表明, 由于N-(2-苯氧乙基)引入氮杂冠醚环和参与配位, 18CE和15CE配合物的稳定常数分别比单氮杂-18-冠-6, N-(2-羟基乙基)单氮杂-18-冠-6, N-(2-甲氧基乙基)单氮杂-18-冠-6和单氮杂-15-冠-5, N-(2-甲氧乙基)单氮杂-15-冠-5, N-(2-甲氧乙基)单氮杂-15-冠-5的对应配合物明显提高. 配合物的稳定常数和紫外光谱皆提供了支链的苯氧基参与配位的信息.     

一步法合成N-1,3-二羟基丙烷-2-基烷基乙酰胺

以5-氨基烷基-2,2-二甲基-1,3-二噁烷为起始原料, 乙酸酐为酰化剂, 一步法选择性地合成氨基二醇类氨基乙酰化产物N-1,3-二羟基丙烷-2-基烷基乙酰胺. 该方法操作简便, 收率高. 所合成的4个新化合物的结构均经FTIR, ¹H NMR, ¹³C NMR及HRMS确证. N-3-(1,3-二羟基丙烷-2-基)丙基乙酰胺(1a)作为关键的中间体, 可以用于HIV-1 Tat/ PCAF BRD抑制剂4的合成.     

N-甲基-2-(4'-N-乙基咔唑基)-[60]富勒烯吡咯烷及其衍生物的合成, 电荷分离态特征

通过1,3-偶极环加成方法在微波照射下合成了N-甲基-2-(4'-N-乙基咔唑基)-富勒烯吡咯烷(C₆₀-Cz)和N-甲基-2- (4'-N,N-二苯基氨基)-富勒烯吡咯烷(C₆₀-TPA), 用质谱, ¹H NMR, IR等对其结构进行了表征. 用激光光解时间分辨瞬态谱研究了N-甲基-2-(4'-N-乙基咔唑基)-富勒烯吡咯烷的分子内电荷转移过程, 在近红外区观测到了长寿命电荷分离态C₆₀^•--C_Z^•+的存在, 其寿命为0.28 μs. 运用Gaussian 98量子化学程序包, 利用密度泛函的方法对N-甲基-2-(4'-N,N-二苯基氨基)-富勒烯吡咯烷几何构型进行了优化, 并在优化基础上用ZINDO方法计算了化合物C₆₀-TPA的电子光谱, 计算结果表明, 光谱吸收峰在440 nm, 与实验值433 nm基本一致.     

新型三嗪桥连的双1,8-萘酰亚胺衍生物的合成及其光物理行为

以1,8-萘酰亚胺和三聚氯氰为主要原料, 合成了两种由三嗪环桥连的双1,8-萘酰亚胺化合物3 和5. 采用紫外-可见光谱和荧光光谱等手段考察了两种化合物在不同溶剂中的光物理行为. 与参比化合物N-丁基-1,8-萘酰亚胺相比, 在二氯甲烷、三氯甲烷和甲醇等极性溶剂中, 化合物3和5除了在短波区(λ<400 nm)存在1,8-萘酰亚胺的特征荧光发射峰外, 在长波区(>450 nm)均产生一个较强的新荧光发射峰, 表现出分子内激基缔合物的光物理行为. 与化合物5相比, 由于化合物3特殊的构象异构, 其荧光强度发生严重的猝灭. 在非极性溶剂甲基环己烷中, 化合物5 由于存在较强的分子间氢键作用而聚集, 受激后形成了较稳定的分子间激基缔合物, 但未观察到明显的分子内激基缔合物的形成. 在甲苯溶剂中, 化合物3和5与甲苯分子形成了激基复合物, 并未形成分子内激基缔合物. 进一步研究3和5的固态激发态性质, 发现化合物3和5的固体薄膜受激后分别在465和469 nm处出现激基缔合物的特征荧光发射峰.     

Colorimetric and ratiometric fluorescent chemosensor with a large red-shift in emission: Cu(II)-only sensing by deprotonation of secondary amines as receptor conjugated to naphthalimide fluorophore

[reaction: see text] A new fluorescent probe N-butyl-4,5-di[2-(phenylamino)ethylamino]-1,8-naphthalimide 1 senses only Cu(II) among heavy and transition metal (HTM) ions by means of a colorimetric (primrose yellow to pink) method with a large red-shift in emission (green to red) attributed to the deprotonation of the secondary amines as a receptor conjugated to the naphthalimide fluorophore.     

Theoretical Study on the Electronic Structures and Spectral Properties of 1,8-Naphthalimide Derivatives

The molecular geometries, frontier molecular orbital properties, and absorption and emission properties of three 4-phenoxy-1,8-naphthalimide derivatives, namely 4-phenoxy-N-（2-hydroxyethyl）-1,8-naphthalimide（1）,4-（2-tert-butylphenoxy）-N-（2-hydroxyethyl）-1,8-naphthalimide（2）, and 4-[2,4-di（tert-butyl）]phenoxy-N-（2-hydroxyethyl）-1,8-naphthalimide（3）, are investigated by density functional theory（DFT） and time-dependent density functional theory（TD-DFT） calculations in conjunction with polarizable continuum models（PCMs）. Four functionals and ten basis sets are employed for 1 to calculate the electron transition energies, which were compared with the experimental observations. Our results reveal that the B3LYP/6-311＋G（d,p） method is the best choice to reproduce the experimental spectra. Moreover, the effects of substituents on the molecular geometries, electronic structures, absorption and emission spectra are also studied at the B3LYP/6-311＋G（d,p） level. We find that the gap between the highest occupied molecular orbital（HOMO） and the lowest unoccupied molecular orbital（LUMO） decreases with increasing the number of tert-butyl substituents onto the phenoxy groups, suggesting red-shift of the absorption and emission bands. This is related to the increase of conjugation from 1 to 2 and 3. Our calculations are in good agreement with the experimental results.     

4-咔唑基-N-（3,′4′-二甲苯基）-1,8-萘二甲酰亚胺作为电子传输材料的实验和理论研究（英文）

通过乌尔曼偶联反应合成了一种新颖的萘胺-咔唑分子,4-咔唑基-N-（3,′4′-二甲苯基）-1,8-萘二甲酰亚胺（CNP）.运用量子化学中的密度泛函理论（TD-DFT）,在B3LYP/6-31（d）水平上对化合物在阴离子、阳离子、中性状态下进行了结构全优化,得到了化合物的总能量、HOMO能级、LUMO能级、电离能和电子亲合势.理论计算了化合物的紫外吸收光谱和红外光谱.紫外吸收光谱、红外光谱、HOMO能级和LUMO能级数值与实验值高度一致.在理论上分析了化合物作为电致发光材料的可能性,化合物CNP是一种很好的电子传输材料.     

Effects of the 3- and 4-methoxy and acetamide substituents and solvent environment on the electronic properties of N-substituted 1,8-naphthalimide derivatives

The photophysical properties of polar molecules in solution with an intramolecular charge-transfer effect in the excited state depend strongly on the polarity and proticity of the solvents. UV-visible spectra of 1,8-naphthalimide and some N-substituted derivatives in acetic acid, acetonitrile, dichloromethane, and p-dioxane were carried out. Several molecular cluster geometries formed with N-substituted 1,8-naphthalimide derivatives and a large set of random positioning of some solvent molecules in their environment were optimized by a semiempirical method. It provided a complete screening of possible solute-solvent configurations and resulted in a multiple minima hypersurface of the supramolecular systems. With such local minima energies, the main thermodynamic association functions were found. They also provided selected cluster geometries for calculations of vertical electronic transitions with a time-dependent density functional theory (TD-DFT), if the lowest energy structures were considered. Calculated vertical electronic transition energies at the TD-DFT level were compared with experimental data. The experimental absorption UV-visible spectra for the six compounds in the four solvents were performed in our laboratory. Moreover, X-ray photoelectron spectroscospy of the 1,8-naphthalimide was carried out in the ICP-CSIC laboratory. Thermodynamic function values show different association energies between each solvent and the molecules, in correlation with the possibility of hydrogen bond formation and the polarity and dielectric constant of the solvents. The 3- and 4-acetamide 1,8-naphthalimide derivatives have the highest conformer number and the most negative Gibbs free association energy values for a determined solvent. This indicates the importance of the entropic factors.     

Ratiometric and selective fluorescent sensor for CuII based on internal charge transfer (ICT)

A Cu(II)-sensing, ratiometric, and selective fluorescent sensor 1, N-butyl-4,5-di[(pyridin-2-ylmethyl)amino]-1,8-naphthalimide, was designed and synthesized on the basis of the mechanism of internal charge transfer (ICT). In aqueous ethanol solutions of 1, the presence of Cu(II) induces the formation of a 1:1 metal-ligand complex, which exhibits a strong, increasing fluorescent emission centered at 475 nm at the expense of the fluorescent emission of 1 centered at 525 nm. [structure: see text]     

Synthesis of <Emphasis Type="Italic">N</Emphasis>-(2-hydroxyphenyl)-1,8-naphthalimide and its derivatization at the hydroxy group

The reaction of 1,8-naphthalic anhydride with 2-aminophenol afforded N-(2-hydroxyphenyl)-1,8-naphthalimide, which was then derivatized at the hydroxy group.     

Structural organization of a {ruthenium[tris(bipyridyl)]} complex by strong π–π stacking of a tethered 1,8-naphthalimide synthon: Impact on electrochemical and spectral properties

The new ligand N-(5-methyl-2,2′-bipyridyl)-1,8-naphthalimide has been prepared by the reaction of 1,8-naphthalimide, 5-(bromomethyl)-2,2′-bipyridine and potassium carbonate in refluxing acetone. Reaction of this ligand and bis(bipyridyl)ruthenium(II) dichloride in refluxing ethanol followed by anion exchange with ammonium hexafluorophosphate produces {ruthenium[bis(bipyridyl)][N-(5-methyl-2,2′-bipyridyl)-1,8-naphthalimide]}(PF₆)₂ (1). In both the solid state (X-ray analysis) and in solution (shown by PGSE-NMR analysis), the 1,8-naphthalimide synthon organizes the cationic metal units into dimers with a strong, directionally oriented (head to tail) π–π stacking interaction. UV–VIS, fluorescence spectroscopy and electrochemical studies indicate that even with the strong interactions of the 1,8-naphthalimide groups, it does not have a significant influence on the properties of the [Ru(bipy)₃]²⁺ core.     

Charge-transfer interaction of iodine with some polyamidoamines

The interaction of iodine as a sigma-acceptor with two derivatives of polyamidoamine dendrimers (donor), 1,8-naphthalimide polyamidoamine (PAM1) and 4-piperidino-1,8-naphthalimide polyamidoamine (PAM2) have been investigated spectrophotometrically at room temperature in chloroform. The results indicate the formation of two CT-complexes [(PAM1)I](+)I(3)(-) and [(PAM2)(2)I](+)I(3)(-) with molar ratios of 1:2 and 1:1, respectively. The formation of these two complexes are in good agreement with their elemental analysis, infrared measurements and photometric titration plots based on the characteristic absorption bands of I(3)(-) ion around 280 and 360 nm. Moreover the formation of triiodide ion, I(3)(-), in both of the two complexes was supported by measuring their spectra in the far-infrared region. Three characteristic bands are observed at 125, 110 and 75 cm(-1) due to nu(as)(I-I), nu(s)(I-I) and delta(I(3)(-)), respectively, with C(2v) symmetry.     

含萘酰亚胺光功能基元的吡唑啉酮席夫碱的合成及其光谱性质

以4-溴-1,8-萘酐为原料,经亚胺化、取代和还原反应合成了中间体N-对氨基苯基-4-哌啶-1,8-萘酰亚胺(4),4与1-苯基-3-甲基-4-苯甲酰基-吡唑啉酮-5缩合得到一种含萘酰亚胺光功能基元的的新型吡唑啉酮席夫碱——1-苯基-3-甲基-4-苯甲酰基-吡唑啉酮-5缩N-对氨基苯基-4-哌啶-1,8-萘酰亚胺(6)。4和6的结构经1H NMR和IR确证。研究了6在不同溶剂中的光谱性质,发现其吸收光谱和荧光光谱随溶剂的极性不同而表现出不同的光谱特性。进一步研究表明6在不同溶剂中可能以不同的互变异构体存在。