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刘育, Yu Liu, * Yong Chen, Li Li, Heng-Yi Zhang, Shuang-Xi Liu, and Xu-Dong Guan
J. Org. Chem. 2001, 66, 8518-8527,-0001,():
-1年11月30日
To investigate quantitatively the cooperative binding ability of several β-cyclodextrin oligomers bearing single or multiligated metal center(s), the inclusion complexation behavior of four bis(β-cyclodextrin)s (2-5) linked by 2,2'-bipyridine-4,4'-dicarboxy tethers and their copper(Ⅱ) complexes (6-9) with representative dye guests, i.e., methyl orange (MO), acridine red (AR), rhodamine B (RhB), ammonium 8-anilino-1-naphthalenesulfonic acid (ANS), and sodium 6-(p-toludino)-2-naphthalenesulfonate (TNS), have been examined in aqueous solution at 25°C by means of UVvis, circular dichroism, fluorescence, and 2D NMR spectroscopy. The results obtained indicate that bis(β-cyclodextrin)s 2-5 can associate with one or three copper(Ⅱ) ion(s) producing 2:1 or 2:3 bis-(β-cyclodextrin)-copper(Ⅱ) complexes. These metal-ligated oligo(β-cyclodextrin)s can bind two model substrates to form intramolecular 2:2 host-guest inclusion complexes and thus significantly enhance the original binding abilities of parent β-cyclodextrin and bis(β-cyclodextrin) toward model substrates through the cooperative binding of two guest molecules by four tethered cyclodextrin moieties, as well as the additional binding effect supplied by ligated metal center(s). Host 6 showed the highest enhancement of the stability constant, up to 38.3 times for ANS as compared with parent β-cyclodextrin. The molecular binding mode and stability constant of substrates by bridged bisand oligo(β-cyclodextrin)s 2-9 are discussed from the viewpoint of the size/shape-fit interaction and molecular multiple recognition between host and guest.
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刘育, Yu Liu, *[a] Yong Chen, [a] Bin Li, [a] Takehiko Wada, [b] and Yoshihisa Inoue*[b]
,-0001,():
-1年11月30日
A series of novel 6,6'-bis(bcyclodextrin) s linked by 2,2'-bipyridine-4,4'-dicarboxy tethers; that is, 2,2'-bipyridine-4,4'-dicarboxy-bridged bis(6-O-bcyclodextrin) (2) and N,N'-bis(2-aminoethyl)-2,2'-bipyridine-4,4'-dicarboxamide-bridged (3), N,N'-bis(5-amino-3-azapentyl)-2,2'-bipyridine-4,4'-dicarboxamide-bridged (4) and N,N'-bis(8-amino-3,6-diazaoctyl)-2,2'-bipyridine-4,4'-dicarboxamide-bridged bis(6-amino-6-deoxy-b-cyclodextrin) (5), has been synthesized as cooperative multipoint-recognition receptor models. The inclusion complexation behavior of 2-5 with organic dyes; that is, ammonium 8-anilino-1-naphthalenesulfonate, Brilliant Green, Methyl Orange, Acridine Red, and Rhodamine B, has been investigated in aqueous phosphate buffer solutions (pH7.20) at 25℃ by means of ultraviolet, fluorescence, and circular dichroism spectrometry as well as by fluorescence lifetime measurements. The spectral titrations gave the complex stability constants (KS) and Gibbs' free energy changes (△℃) for the inclusion complexation of 2-5 with the organic dyes and other thermodynamic parameters (△H°and △S°) for the inclusion complexation of 2-4 with the fluorescent dyes Acridine Red and Rhodamine B. Bis(b-cyclodextrin)s 2-5 displayed higher binding abilities toward most of the examined dye molecules than native b-cyclodextrin 1; this is discussed from the viewpoints of the size/shape-fit concept, the induced-fit interaction, and cooperative, multipoint recognition by the bridging chain and the dual hydrophobic cavities. Thermodynamically, the inclusion complexation of 2-4 with Acridine Red is totally enthalpy driven with a negative or minor positive entropic contribution, but the inclusion complexation with Rhodamine B is mainly entropy-driven with a mostly positive, but occasionally negative, enthalpic contribution; in some cases this determines the complex stability.
cyclodextrins
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刘育, Yu Liu, * Chang-Cheng You, and Bin Li[a]
,-0001,():
-1年11月30日
Four bridged bis(b-cyclodextrin) s tethered by different lengths of oligo(ethylenediamine)s have been synthesized and their inclusion complexation behavior with selected substrates elucidated by circular dichroism spectroscopy and fluorescence decay. In order to study their binding ability quantitatively, inclusion complexation stability constants with four dye guests, that is, brilliant green (BG), methyl orange (MO), ammonium 8-anilino-1-naphthalenesulfonic acid (ANS), and sodium 6-(p-toluidino)-2-naphthalenesulfonate (TNS), have been determined in aqueous solution at 25 8C with spectrophotometric, spectropolarimetric, or spectrofluorometric titrations. The results obtained indicate that the two tethered cyclodextrin units might cooperatively bind to a guest, and the molecular binding ability toward model substrates, especially linear guests such as TNS and MO, could be extended. The tether length plays a crucial role in the molecular recognition, the binding constants for ANS and TNS decrease linearly with an increase in the tether length of dimeric cyclodextrin. The Gibbs free energy changes (
cyclodextrins
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【期刊论文】Water-Soluble Supramolecular Fullerene Assembly Mediated by Metallobridged b-Cyclodextrins**
刘育, Yu Liu, * Hao Wang, Peng Liang, and Heng-Yi Zhang
Angew. Chem. Int. Ed. 2004, 43, 2690-2694,-0001,():
-1年11月30日
he obtained results indicate that watersoluble cyclodextrin–fullerene complexes show unique photophysical and biological properties. Recently, our studies indicated that the resultant complexes of bis-cyclodextrins and pharmacy molecules significantly enhance both water solubility and biological activity of fullerene derivatives.[21] Herein, we report a simple way to prepare a water-soluble fullerene assembly with a coordinated metal center through end-to-end intermolecular inclusion complexation of a dimeric cyclodextrin with a fullerene. Furthermore, the assembly behavior of this complex has been comprehensively investigated by UV/Vis absorption, FTIR, 1H NMR, and 13C NMR spectroscopies, elemental analysis, thermogravimetric analysis (TGA), scanning tunneling microscopy (STM), transmission electron microscopy (TEM), and scanning electron microscopy (SEM). The biological activity of the assembly was assayed under visible light irradiation and another in dark as a control, which indicates that the assembly may serve as an effective photodriven DNA cleaver.
cleavage reactions
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刘育, Yu Liu, * Yan-Li Zhao, Heng-Yi Zhang, and Hai-Bin Song
Angew. Chem. Int. Ed. 2003, 42, 3260-3263,-0001,():
-1年11月30日
Nanometer-sized supramolecular assemblies created by the simple inclusion complexation of host cyclodextrins (CDs) and guest molecules have attracted more and more attention in recent years because of their potential to serve as molecular devices and molecular machines, as well as functional materials. [1-4] Indeed, CDs can be threaded on a polymer chain to form a polyrotaxane and extended to molecular tubes through the cross-linking of adjacent CD units in a polyrotaxane.[5] Furthermore, b- and g-cyclodextrins can also be constructed into nanometer-sized molecular tubes linked by diphenylhexatrienes,[6] and conjugated polyrotaxanes can be used as building blocks to form insulated molecular wires on which a- or b-CDs are threaded.[7] We recently showed that the resulting complex formed from an organoseleniumbridged b-CD dimer and a platinum ion could be fabricated into bis(molecular tube)s through formation of a pesudorotaxane with poly(propylene glycol), and the bridged bis(bcyclodextrin) s and calix[4]arene derivatives could also form nanometer-sized linear aggregations by simple host-guest inclusion complexation.[8-10] Molecular semiconductors can also be exploited for organic electronics and single molecules can be manipulated and incorporated into nano-engineered devices at a supramolecular level by threading a chargetransport macromolecule.[11-15] However, higher order polymeric rotaxanes fabricated by metal-ion binding to the inclusion complexes formed between CDs and aromatic molecules have not been investigated so far. Dipyridine-metal complexes have very interesting photochemical and other properties, and therefore many studies have been devoted to this topic.[16] Herein we report our investigations on two uncommon supramolecular aggregations: assembly 1, formed from the reaction of b-CD with 4,4'-dipyridine (DPD), and polymeric rotaxane 2, which was synthesized by coordination of 1 with NiII ions. The binding behavior of 1 and 2 was examined, both in solution and in the solid state, by 1H NMR spectroscopy, X-ray crystallography, induced circular dichroism, powder X-ray diffraction studies, thermogravimetric (TG) and differential thermal analysis (DTA), scanning tunneling microscopy (STM), and transmission electron microscopy (TEM). The binding behavior of the supramolecular assembly formed by the molecular recognition of the host and guest in solution and in the solid state is of particular interest, since the inclusion complex and the polymeric rotaxane display different photophysical behavior. The present investigations have revealed that the resulting complex of CDs with guest molecules is the first step in the formation of a polymeric rotaxane, which provides access to coordination polymeric supramolecules with CDs, and will serve to further our understanding of this developing, but less investigated, area of electroactive organic materials that contain CDs and a coordination linkage.
coordination modes
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