含噻二唑基的对叔丁基杯[4]芳烃衍生物的合成及表征

以对叔丁基杯[4]芳烃(1)为原料, 分别与1,2-二溴乙烷、1,3-二溴丙烷在碳酸钾的存在下进行选择性烷基化反应, 生成杯[4]芳烃衍生物2和3. 在氢氧化钠存在下, 化合物2和3与过量的含不同官能团的2-巯基噻二唑反应, 生成下缘含噻二唑基的杯芳烃衍生物4a～4c, 5a～5c, 其结构经¹H NMR, ¹³C NMR, IR, MS和元素分析确证.     

新型四硫富瓦烯-杯芳烃衍生物的合成与其电化学行为

在高度稀释条件下, 溴烷基化杯[4]芳烃1a和1b分别与二-(1,3-二硫杂环戊烯-2-硫酮-4,5-二硫)合锌酸四乙基铵盐在乙腈中回流, 得到含杯[4]芳烃单元的硫酮2a和2b. 以亚磷酸三乙酯为偶联剂, 其分别和4,5-二腈基乙硫基-1,3-二硫代环戊烯-2-酮发生交叉偶合反应, 合成了两个新颖的四硫富瓦烯–杯[4]芳烃衍生物3a和3b, 并对其进行了结构表征和电化学行为研究. 同时用X射线衍射法确认了2b的晶体结构.     

系列新型硫杂杯[4]芳烃氮杂衍生物的合成

在对叔丁基硫杂杯[4]芳烃的下缘1,3位引入芳醛基, 合成了硫杂杯[4]二醛基衍生物2. 化合物2与苯胺、水杨酰肼、烟酰肼、异烟酰肼等通过席夫碱缩合反应得到新型硫杂杯[4]氮杂衍生物3a～3d, 产率分别为83%, 80%, 77%和79%. 化合物2与邻苯二胺、乙二酰肼、丙二酰肼、己二酰肼等通过“1＋1”分子间缩合得到新型1,3-桥联硫杂杯[4]氮杂衍生物4a～4d, 产率53%, 51%, 59%和66%. 新化合物的结构经IR, ¹H NMR, MS和元素分析等证实.     

含酰胺和席夫碱单元的杯[4]芳烃衍生物的合成与配合性能

杯[4]-1,3-二乙酸乙酯衍生物1与水合肼反应生成杯[4]芳烃酰肼衍生物2, 然后进一步与相应的芳醛反应, 高产率地合成了三个新型的含酰胺和席夫碱单元的杯[4]芳烃衍生物3a～3c和一例新型杯[4]冠醚4. 阳离子萃取实验表明新型杯芳烃衍生物比只含有酰胺基或席夫碱基的杯芳烃衍生物有更强的软金属离子配合性能, 杯[4]冠醚4还对Ag^＋有较好的选择性萃取能力.     

含苯并噁唑基的硫桥杯[4]芳烃衍生物的合成及结构

在碳酸钾存在下, 对叔丁基硫桥杯[4]芳烃(1)分别与端基二溴代烷和碘甲烷反应, 生成硫桥杯[4]芳烃衍生物2～4. 含端基溴代的硫桥杯[4]芳烃衍生物2和4分别与2-巯基苯并噁唑在碳酸钾存在下反应, 生成硫桥杯[4]芳烃衍生物5a～5d. 通过1H NMR, 13C NMR, IR, MS和元素分析等手段对产物进行了表征. 同时, X射线分析确定了硫桥杯[4]芳烃5b的晶体结构.     

杯[4]芳烃黄原酸酯衍生物的合成与阳离子萃取性能

以二氧六环作溶剂, 杯[4]芳烃二甲氧基二羟乙氧基衍生物2与氢氧化钾、二硫化碳作用合成了杯芳烃黄原酸盐衍生物3, 并进一步与碘甲烷或氯化苄反应首次合成了含黄原酸酯基的杯芳烃衍生物4a和4b. 阳离子萃取试验表明该新型杯芳烃衍生物比单硫杂杯芳烃衍生物具有更好的过渡金属离子萃取性能.     

杯芳烃多齿水杨醛亚胺衍生物的合成

以对叔丁基杯[n]芳烃1a～1b (n＝6, 8)为原料, 经过三步反应, 以较高产率合成了一系列含多个水杨醛亚胺端基的西佛碱衍生物5a～5f. 对叔丁基杯[n]芳烃用溴乙酸乙酯进行烃基化反应, 生成杯芳烃氧代乙酸乙酯2a～2b, 后者与过量脂肪族二胺NH₂(CH₂)_mNH₂ (m＝2, 4, 6)反应, 生成含有游离氨基的杯芳烃酰胺衍生物4a～4f, 再与水杨醛在乙醇中反应生成目标产物席夫碱衍生物.     

含卤素端基的单取代对-叔丁基杯[6]芳烃的合成与表征

用THF作为反应溶剂, K₂CO₃作碱, 对-叔丁基杯[6]芳烃与二溴丁烷、二溴己烷和1,4-二氯丁炔-2反应以中等产率选择性地合成了含有卤素端基的单取代对-叔丁基杯[6]芳烃2a～2c. 2a和2b可与对甲苯磺酸甲酯(MeOTs)反应高产率地得到全甲基化产物3a和3b. 通过核磁共振谱(¹H NMR)和质谱(FAB-MS)表征, 发现所有化合物都具有预期结构, 2a～2c和3b在室温下是锥式构象, 而3a没有固定构象.     

含三唑基的新型咪唑[2,1-b]-1,3,4-噻二唑的合成及表征

以2-(2-苯基-1,2,3-三唑-4-基)-5-氨基-1,3,4-噻二唑(1)为原料分别与ω-溴代芳基乙酮、ω-溴代-ω-(1H-1,2,4-三唑-1-基)芳基乙酮反应, 合成了一系列新型咪唑[2,1-b]-1,3,4-噻二唑类化合物2a～2e和3a～3e. 其结构经IR, ¹H NMR和MS及元素分析确证.     

四-(p-羟基苯基)杯[4]间苯二酚芳烃的烃基化和酰胺化反应

间苯二酚和对羟基苯甲醛在盐酸/乙醇中缩合生成四-(p-羟基苯基)杯[4]间苯二酚芳烃(1), 在K₂CO₃/丙酮体系中将1分别与溴乙酸乙酯、溴丙烯、N,N-二丙基氯乙酰胺反应可得到全氧烃基化产物2a～2c. 含有12个乙氧基羰基甲氧基支链的2a被苯乙胺、N,N-二甲基二丙胺或三乙烯四胺直接胺解生成杯[4]间苯二酚芳烃酰胺衍生物3a～3c. 2a经过碱性水解、酰氯化、胺化反应转化为含吡啶基的酰胺衍生物3d. 化合物结构都用¹H NMR, IR和元素分析等方法进行了表征.     

Synthesis and conformational evaluation of p-tert-butylthiacalix[4]arene-crowns

Bridging of p-tert-butylthiacalix[4]arene afforded 1,3-dihydroxythiacalix[4]arene-monocrown-5 (3b), 1,2-alternate thiacalix[4]arene-biscrown-4 and -5 (4a,b), and 1,3-alternate thiacalix[4]arene-biscrown-5 and -6 (5a,b), depending on the metal carbonates and oligoethylene glycol ditosylates used. Starting from 1,3-dialkylated thiacalix[4]arenes, the corresponding bridging reaction gave 1,3-alternate, partial-cone, and cone conformers 10-19, depending on the substituents present. Temperature-dependent studies revealed that the conformationally flexible 1,3-dimethoxythiacalix[4]arene-crowns 10a-c exclusively occupy the 1,3-alternate conformation. Demethylation exclusively gave the cone 1,3-dihydroxythiacalix[4]arene-crowns (3a,c), which could not be obtained by direct bridging of thiacalix[4]arene. The different structures were assigned on the basis of several X-ray crystal structures and extensive 2-D (1)H NMR studies.     

Thiacalix[4]arene derivatives as radium ionophores: a study on the requirements for Ra2+ extraction

The synthesis and NOE-based structural characterization is described of thiacalix[4]arene tricarboxylic acid (7), thiacalix[4]crown-5 and -6 monocarboxylic acids (2 and 5), and the bis(N-methylsulfonyl)thiacalix[4]crowns-5 and -6 (4a,b). The 226Ra2+ selectivity coefficients, log(K(Ra)ex/K(M)ex), of the new thiacalix[4]arene derivatives are compared directly with those of thiacalix[4]crown-5 and -6 (1a,b), thiacalix[4]crown-5 and -6 dicarboxylic acids (3a,b), and thiacalix[4]arene di- and tetracarboxylic acids (6 and 8). Thiacalix[4]arene dicarboxylic acid (6) already exhibits a high 226Ra2+ selectivity, but this is significantly improved in the case of 3b, having an additional crown-(6-)ether bridge. The covalent combination of a crown ether and carboxylic acid substituents as in the thiacalix[4]arenes 2,3a,b,4a,b, and 5 gives a better 226Ra2+ selectivity in the presence of Sr2+ or Ba2+ than mixtures of dibenzo-21-crown-7 and thiacalix[4]arene dicarboxylic acid (6) or of pentadecanoic acid and thiacalix[4]crown-6 (1b).     

Synthesis and Electrochemical Behavior of Electroactive Bistetrathiafulvalene-attached Thiacalix[4]arene Assemblies

Tetrabromoalkylthiacalix[4]arenes(1a and 1b) reacted with excess bis(tetraethylammonium)-bis(1,3- dithiole-2-thione-4,5-dithiol)zincate(2) to give thiacalix[4]arene-thiones(3a and 3b) in the presence of Na₂S. Two novel bistetrathiafulvalene-attached thiacalix[4]arene assemblies(5a and 5b) formed via triethyl phosphite-mediated cross-coupling of thiacalix[4]arene-thiones(3a and 3b) and 4,5-biscyanoethylthio-1,3-dithiole-2-one(4). All the four new compounds were characterized by ¹H NMR, ¹³C NMR, IR, MS spectra and elemental analysis. Meanwhile, the structures of thiacalix[4]arene-thiones(3a and 3b) were identified by X-ray analysis. In addition, the cyclic voltammograms of the resulting thiacalix[4]arenes containing electroactive TTF units(5a and 5b) were provided.     

苄连氮桥联双硫杂杯[4]芳烃的合成

硫杂杯[4]二醛基衍生物(1)在水合肼中肼解,合成了新化合物硫杂杯[4]二醛腙基衍生物(2);1和2在弱酸的催化下反应合成了新的具有对称结构的苄连氮双硫杂杯[4]芳烃(3);2和3的结构经1H NMR,IR,ESI-MS和元素分析表征.     

Conformational behaviour of tetramethoxythiacalix[4]arenes: solution versus solid-state study

The conformational behaviour of simple thiacalix[4]arene derivatives was studied using a combination of NMR spectroscopy and X-ray diffraction analysis. The 25,26,27,28-tetramethoxythiacalix[4]arene was found to adopt an unprecedented solid-state structure, where the cone and 1,3-alternate conformers co-exist in the crystal lattice in the 3:1 ratio. This phenomenon reflects the basically distinct conformational behaviour of thiacalix[4]arene skeleton as compared with classical calixarenes.     

Second-sphere coordination in the complex [Mn(H2O)6]2[thiacalix[4]arene tetrasulfonate]

The title calixarene, dimanganese thiacalix[4]arene tetrasulfonate, was prepared and its crystal structure was determined. [Mn(H₂O)₆]₂[thiacalix[4]arene tetrasulfonate]·0.5H₂O crystallizes in the monoclinic system, P2(1)/m space group, with a=13.014 (6), b=14.146 (9), c=13.184 (7) Å, β=113.307 (10)°, V=2229 (2) Å³ and Dc=1.710 gcm⁻³, Z=2. The title calixarene exists in the solid state as bilayer structure. The hydrophobic organic layer consists of thiacalix[4]arene tetrasulfonate in an up-down fashion, whereas, the hydrophilic inorganic layer consists of hexaaquamanganese (II) which is linked to the former through a second-sphere coordination.     

Hydrogen bonding receptors of tetraamide derivatives derived from thiacalix[4]arene in cone- and 1,3-alternate conformation

Novel ditopic receptors of tetraamide derivatives possessing four 2-pyridyl groups derived from thiacalix[4]arene in cone- and 1,3-alternate conformation were prepared. The structure of one of the tetraamide derivatives was confirmed by a single crystal X-ray analysis. The tetrathiacalix[4]arene tetraamides show strong intramolecular hydrogen bonding. The binding behaviour towards Ag⁺ and halides has been investigated by ¹H NMR titration experiments.     

Structure and conformational equilibrium of thiacalix[4]arene by density functional theory

Density functional theory calculations for the structure and conformational equilibrium of thiacalix[4]arene are reported. The conformational equilibrium of thiacalix[4]arene, a heterocalixarene in which the phenol groups are bridged by sulphur atoms is compared to the conformational equilibrium of calix[4]arene. Thiacalix[4]arene conformational energies relative to the cone conformer (ΔE's) are reduced in comparison with calix[4]arene. This conformational change is in qualitative agreement with recent NMR spectroscopy measurements of the conformational equilibrium for a tetraethylether of thiacalix[4]arene in a CDCl₃ solution which indicates an enhanced chemical exchange of thiacalixarene conformers in comparison with similar methylene bridged structures. Density functional theory results for the structure of thiacalix[4]arene are in good agreement with recent X-ray diffraction measurements. The electrostatic potentials in the cone conformers of thiacalix[4]arene and calix[4]arene suggest that their complexation or recognition abilities can be significantly different. Dipole moments of the four thiacalix[4]arene conformers are in the order: cone>1,2-alternate>partial-cone>1,3-alternate.