Extraction Behavior of Amino Acids by Calix[6]arene Carboxylic Acid Derivatives

A series of calixarene carboxylic acid derivatives were synthesized for the extraction of amino acids. A calix[6]arene carboxylic acid derivative showed the highest extractability to the target tryptophan ester. The main driving forcefor the complexation was the interaction between the ammonium cation of the aminoacid and the oxygen atoms of the host molecule. Stripping of amino acids was alsoaccomplished by contacting the organic solution with a fresh acidic solution. Basedon slope and Job method analyses, it was confirmed that the calix[6]arene formsa 1 : 1 complex with the amino acid ester. The structure of the complex between the calix[6]arene and the amino acid was investigated by ¹H-NMR and CD spectra. The calix[6]arene includes a guest molecule in the cavity, and the inclusion induces the asymmetrization of the host molecule. This host compound functions as a novel recognition tool for amino acids.     

新型杯[4]芳烃酰肼基羰基羧酸衍生物的合成

杯[4]芳烃经醚化引入酯基后再经水合肼肼解,进一步与丁二酸酐或顺丁烯二酸酐氨解开环合成了两个新型的杯[4]芳烃酰肼基羰基羧酸衍生物,产率85％和83％,其结构经1H NMR,IR和ESI-MS表征.     

对叔丁基杯[n]芳烃酰胺衍生物的合成及其对某些金属离子的萃取性能

对叔丁基杯[n]芳烃酰胺衍生物的合成及其对某些金属离子的萃取性能;杯芳烃; 酰胺衍生物; 金属离子; 萃取; 离子识别     

杯芳烃偶氮类衍生物对金属离子的萃取作用

通过杯芳烃的酚羟基的直接烃基化反应,在杯芳烃的下缘引入2,3′-二甲基-4-氨基偶氮苯发色团,得到了一系列杯芳烃偶氮衍生物(n=4,6,8)a-c.研究了它们对碱金属,碱土金属及过渡金属等十种金属离子的萃取作用.结果表明此类杯芳烃偶氮衍生物对过渡金属离子有良好的选择性识别作用,其中空腔较大的杯[8]芳烃偶氮衍生物c的萃取效果尤为显著.     

Syntheses of Chiral Calix [4] arene Derivatives Bearing Amino Acid Residue

The syntheses of chirai calix[4]arene derivatives bearing amino acid residue at the lower rim or upper rim by three different methods were reported.     

杯芳烃衍生物与环糊精空腔间的超分子相互作用

针对杯芳烃衍生物与环糊精空腔间的超分子相互作用的研究是理解自组装单分子层(SAMs)主客体作用的基础,也是"分子印刷版"(molecular printboard)研究的主要内容.另外,这种类型的超分子相互作用可以被应用于纳米技术领域,是研究纳米构建技术的前提之一.     

胆酸甲酯(甲基)丙烯酰基衍生物的合成

以(甲基)丙烯酰氯为酰化剂,三乙胺做缚酸剂合成了分子中含有1~3个(甲基)丙烯酰基的胆酸衍生物。结果显示,以酰氯作酰化试剂,胆酸甲酯分子中3个羟基的反应活性顺序是:C3-OH>C12-OH>C7-OH。     

杯芳烃衍生物的合成和性质的研究(Ⅴ)

通过对特丁基杯[4]芳烃的酚羟基的选择性醚化制备了一系列一烃基,1,3-二烃基和四烃基醚,烃基分别含有缩醛、酰胺、氰基等活泼官能团.醚化反应的区域选择性主要取决于使用的碱的种类和反应时间的长短.     

Synthesis and Characterization of Calix[4]arene Functionalized Poly(ethylene glycol) Derivatives

Calix[4]arenes with both ligating and methoxy poly(ethylene glycol) groups appended have been synthesized using several approaches, involving the formation of sulfonyl ester groups on the wide rim, Schiff base derivatives on the narrow rim, and thioether groups on both the wide and narrow rims. These new derivatives have been characterized by a combination of infrared and ¹H NMR spectroscopy. Compounds 10 and 11 are insoluble in both water and aqueous poly(ethylene glycol), but the other new compounds are soluble.     

Calix[4]arene rhenium(V) complexes as potential radiopharmaceuticals

The calix[4]arene platform was used for the syntheses of novel rhenium(V) complexes, that may have potential applications as radiopharmaceuticals. The reaction of ReO(PPh3)2Cl3 with tetradentate N2O2-calix[4]arene ligand 8 in ethanol gave the novel mixed-ligand rhenium complex 9 with the structure ReO(N2O2-calix)OEt. The configuration was elucidated by using a number of 1H NMR techniques. In 9, the ethoxy ligand could be easily and quantitatively exchanged for another monodentate ligand to give complex 12. Tetradentate N2S2-calix[4]arene ligand 15 formed the rhenium complex 16 either via reaction with ReO(PPh3)2Cl3 in an organic solvent or by reaction with rhenium gluconate in an aqueous solution. Complex 16 showed good stability in phosphate-buffered saline solution (37 degrees C, 5 d). The crystal structures of a mono- and a bimetallic complex were determined. The bimetallic N2O2-calixarene complex dimer 11 crystallized in the monoclinic space group C2/c, with a = 38.963(5) A, b = 23.140(6) A, c = 27.382(6) A, beta = 128.456(10) degrees, V = 19,333(7) A3, Z = 8, and final R = 0.0519. The monometallic N2S2 model complex 17 crystallized in the monoclinic space group Cc, with a = 15.715(2) A, b = 12.045(2) A, c = 20.022(3) A, beta = 94.863(12) degrees, V = 3776.3(10) A3, Z = 4, and final R = 0.0342.     

水饱和离子液体中萘普生的酶法拆分

 考察了五种水饱和离子液体反应介质中固定化脂肪酶催化外消旋萘普生甲酯的水解. 结果表明,这些具有不同阴阳离子组合的咪唑基离子液体作为反应介质都能促进水解反应的有效进行,但在水饱和1-正丁基-3-甲基咪唑六氟磷酸盐(［bmim］PF6)中,反应进行得更快,转化率更高. 这些离子液体对脂肪酶均有一定的溶解作用并使溶解的脂肪酶失活. 脂肪酶在离子液体中的溶解度与其剩余活性之间有一定的相关性. 为了解决脂肪酶在离子液体中的溶解问题,使用非极性、高比表面积的无定形多孔硅胶YWG-C6H5对脂肪酶进行了固定化. 在水饱和［bmim］PF6中使用固定化脂肪酶催化反应,反应72 h的转化率为28.3%, 产物的对映体过量值为98.2%, 继续进行反应,转化率将增加,但产物的对映体过量值明显下降. 利用离子液体有别于传统有机溶剂的特性,对离子液体的循环使用、产物的回收和水的补充方法进行了研究. 在反复批式反应中,固定化脂肪酶连续使用五次,活性仅略微下降.     

新型杯[4]芳烃气相色谱固定相的研究

合成了上缘特丁基脱去的杯[4]芳烃25，27-二丁氧基-26，28-二（ω-十一碳烯氧基）杯[4]芳烃（p-H-C[4]B)及其相应的聚硅氧烷化高分子（PSO-p-H-C[4]B)，以有上缘用N，N-二乙基氨甲基取代的杯[4]芳烃5，11，17，23-四（N，N-二乙基氨甲基）-25，26，27，28-四（ω-十一碳烯氧基）杯[4]芳烃（p-DEAM-C[4]U），并首次将它们用作毛细管柱气相色谱固定液，涂制成色谱柱，考察了这些杯[4]芳烃色谱柱的性能。结果表明，研制的杯[4]芳烃柱对芳香位置异构体均有良好的分离能力。     

硫、硒杯[4]芳烃萃取银

以5,11,17,23-四（1,1-二甲基乙基）-25,27-二羟基-26,28-二[（2-乙基硫）乙氧基]杯[4]芳烃（1）和5,11,17,23-四（1,1-二甲基乙基）-25,27-二羟-26,28-二[（2-乙基硒）]乙氧基杯[4]芳烃（2）为萃取剂,研究了在弱酸性条件下杯芳烃衍生物与银的络合行为。杯芳烃衍生物与银形成1：1萃取络合物,在大量碱金属、碱土金属、常见过渡金属离子存在下,对银离子有很高的萃取率和选择性。     

杯芳烃树枝型酰胺衍生物的合成和对金属离子的识别

杯芳烃树枝型酰胺衍生物的合成和对金属离子的识别;杯芳烃;树枝型化合物;酰胺;离子识别;紫外-可见光谱     

Effect of the glutaraldehyde derivatives of Calix[n]arene as cross-linker reagents on lipase immobilization

Synthesis of the glutaraldehyde derivatives calix[n]arene (n = 4,6,8) (Calix[n]-GA) and using as cross-linkers for immobilization of Candida rugosa lipase (CRL) have been discussed in this paper. The amino functional calix[n]arene derivatives (Calix[n]-NH ₂) were synthesized via reduction of dinitrile, hexanitrile and octanitrile derivatives of calix[n]arenes. These amino functional calix[n]arene derivatives (Calix[n]-NH ₂) were converted to their aldehyde derivativatives with glutaraldehyde. The calix[n]arene derivatives were used in lipase immobilization in order to see the role of calix[n]arene binding site on the lipase activitiy and stability. The activity recovery of calix[n]arene-supported lipases (Calix[n]-CRL) based on the Calix[4]-CRL, Calix[6]-CRL and Calix[8]-CRL reaches to 53.5, 66.1 and 76.4%, respectively.     

Calix[n]arene/Ti(IV) complexes as active catalysts in aldol reaction of Chan's diene

The aldol condensation of Chan's diene with benzaldehyde is catalyzed by only 8% mol of the calix[n]arene/Ti(O-i-Pr)₄ complexes. Studies have revealed that the size of calixarene molecule and the number of hydroxyl groups affected the efficiency of the reaction. The reaction conditions (solvent and temperature) have been examined.     

Calix[4]arene Polyaza Derivatives: Novel Effective Neutral Receptors for Cations and (a)-Amino Acids

Introduction Calixarenes are one of the most important supramolecular building blocks, which can be modified by introducing different functional and/or structrual groups to create a specific interaction between the host and the target molecules, such as metal cations and small organic molecules[1,2]. In particular, the recognition of amino acids is an interesting theme in biomimetic chemistry[3].