环糊精超分子组装体的研究进展

环糊精是由若干个D-吡喃葡萄糖单元通过α-1,4-糖苷键连接而成的环状低聚糖,具有一个亲水性的外表面和一个疏水性的空腔。利用主客体相互作用,环糊精及其衍生物能够选择性地与大小匹配的疏水性客体分子形成各种超分子包合物。本文概述了环糊精的结构与性质,并介绍了近年来国内外以环糊精为基础的纳米粒子、水凝胶等超分子组装体的设计原理、作用机制、刺激响应及应用特点,并对环糊精超分子组装体的前景进行了展望。     

金纳米粒子杂化超分子水凝胶的制备与性能

在制备水溶性硫辛酸酯封端的甲氧基聚乙二醇-聚己内酯嵌段共聚物(MPEG-PCL-ALA)单层包覆金纳米粒子的基础上, 在水溶液中, 利用α-环糊精(α-CD)与单层包覆金纳米粒子的包合作用构建杂化超分子水凝胶. 透射电子显微(TEM)照片显示, 金纳米粒子的尺寸为6～8 nm. X射线衍射测试表明, 所制备的水凝胶中含有α-环糊精与MPEG-PCL嵌段共聚物包合形成的多聚准轮烷的特征衍射峰(2θ＝19.7°). 紫外-可见吸收光谱显示, 单层包覆金纳米粒子的水溶液及其与α-CD包合形成的水凝胶在525 nm处均出现表面等离子共振吸收峰, 单层包覆金纳米粒子溶液存放3个月后, 其表面等离子共振吸收峰未发生明显红移, 表明单层包覆金纳米粒子的水溶液具有较好的稳定性.     

环糊精包合作用诱导聚合物自组装的研究进展

将主客体识别与聚合物自组装相结合,利用环糊精对聚合物的包合作用在溶液中诱导聚合物组装形成结构可控的纳米粒子,形成有别于基于环糊精/聚合物包合作用形成的结晶粉末和超分子水凝胶的新型材料.本文介绍了这种诱导组装方案的研究背景及最新的研究成果,综述了诱导组装的原理、特点及影响因素.研究表明,由这种方案制备的聚合物纳米粒子具有超分子动态可逆的特征,进而显示出对温度和pH等敏感的性质.该类环糊精包合作用诱导组装的聚合物超分子聚集体在生物医学材料方面具有潜在的应用价值,如用作药物和基因的可控传递释放载体.     

聚离子液负载金纳米粒子水凝胶的制备及阴离子响应性

通过咪唑基离子液单体与二乙烯苯的自由基聚合制备了聚离子液水凝胶,并通过一步还原得到了离子液水凝胶负载金纳米粒子的复合材料。用UV-Vis光谱和透射电子显微镜研究了金纳米粒子在离子液水凝胶内部的分散状态及阴离子响应性聚集。结果表明,由于空间位阻和静电作用,制得的金纳米粒子的表面等离子共振吸收峰为527 nm,在离子液水凝胶中呈均匀分散的球形(2～5 nm);在PF6-阴离子的作用下,形成了疏水性水凝胶,使凝胶收缩,凝胶内部的金纳米粒子发生聚集,其吸收峰红移到532 nm,初步证实了此水凝胶具有阴离子响应性。     

水凝胶/金属纳米粒子复合物的制备及其在催化反应中的应用

金属纳米粒子的表面效应使其在有机催化方面具有广阔的应用前景,但由于金属纳米粒子易团聚而降低了其催化活性,解决金属纳米粒子的团聚问题具有重要的实际意义。水凝胶具有三维网状结构和大量的功能基团,可用于金属纳米粒子催化剂的制备,有利于金属纳米粒子的分散与固定以及提高金属粒子的回收率与重复使用性。本文主要综述了水凝胶（天然水凝胶与合成水凝胶）负载金属纳米粒子复合物的制备及其催化性能的研究,对影响复合催化剂性能的因素进行总结,最后对其存在的问题和将来可能的发展方向进行展望。     

无机纳米复合水凝胶*

近年来,纳米材料由于具有诸多奇特效应而备受关注。将无机纳米粒子与高分子水凝胶复合,可以很大程度地改善传统水凝胶的使用性能,因而成为近年来水凝胶研究领域的热点课题之一。纳米材料的形貌多姿多彩,相同材质不同形貌的纳米材料对复合材料性能有着不同的作用。本文从不同形貌（层状、管状及球状等）的无机纳米材料对复合水凝胶性能影响出发,以无机纳米粒子的形貌分类,综述了当前无机纳米复合水凝胶的研究进展。     

生物医用类环糊精/聚合物(准)聚轮烷

环糊精及其衍生物具有“内疏水、外亲水”的特殊分子结构,可与许多客体分子包结形成包合物。利用环糊精与聚合物的包结作用构建稳定、结构可控并具有广泛应用前景的生物医用材料是材料及医学界研究的焦点之一。本文介绍了环糊精基(准)聚轮烷的概念及其组装驱动力,同时围绕由环糊精和聚合物组装形成的(准)聚轮烷在生物医用方面的研究包括药物载体(如超分子凝胶、超分子胶束、超分子纳米囊泡、药物键合(准)聚轮烷、刺激响应型(准)聚轮烷等)、基因载体、多重识别与靶向、形状记忆材料及其它相关领域工作进展作一概述。     

聚谷氨酸基超分子水凝胶的制备和表征

以接枝胆固醇的聚谷氨酸-聚乙二醇-聚谷氨酸三嵌段聚合物和接枝β-环糊精的聚谷氨酸为前躯体,通过主客体作用制备聚谷氨酸基超分子水凝胶.通过调控前躯体的浓度、胆固醇和环糊精的摩尔比,得到不同力学性能的水凝胶;改变三嵌段聚合物中聚谷氨酸的分子量,调控聚谷氨酸基超分子水凝胶的力学强度、微观形貌、溶胀行为和降解性能.研究结果表明,当聚合物浓度为150 g/L、环糊精和胆固醇的摩尔比为1∶1时,水凝胶的储存模量最大;聚谷氨酸的分子量越大,水凝胶的储存模量越大;水凝胶平均孔径10~30μm,溶胀度16%~30%,降解时间为40~72 d.水凝胶细胞毒性实验结果表明超分子水凝胶具有良好的生物相容性.     

纳米纤维素的改性及其吸附重金属离子的应用研究

纳米纤维素材料(cellulose nanomaterials,CNs)作为一种可再生材料,具有比表面积大、高结晶度、高强度、高杨氏模量、高表面活性、化学性质稳定等优异性能。纤维素作为天然高分子材料,在清除水体重金属离子中具有较好的应用的价值,因此本文对纤维素的改性及其吸附重金属的应用进行了综述。首先简要地介绍了纳米纤维素的结构与命名方法;其次,对纳米纤维素的改性(即小分子改性与高分子改性)进行了详细的介绍,并重点阐述了改性纳米纤维素基材以粉末、凝胶(包括水凝胶与气凝胶)两种不同的形态通过吸附清除水体重金属离子的应用研究。最后,对改性纳米纤维素基水吸附材料存在的优缺点进行了探讨,并指出了该材料在生产和应用过程中还需解决的问题。     

高性能、多功能化的磁性水凝胶材料的研究进展

以磁性纳米粒子为关键构件的磁性纳米复合水凝胶,拥有优良的机械性能、较好的生物相容性和丰富的磁性,因此在核磁成像、环境治理、热疗以及促进干细胞分化上有着显著的效果。基于目前的研究概况,本文简要介绍了纳米复合水凝胶的理化性质以及作为关键构件的磁性纳米粒子的特性以及制备方法,同时重点阐述了磁性水凝胶在应用及其设计策略方面的研究进展,并从应用角度出发提出了未来将会面临的挑战以及其发展趋势。     

环糊精相关的超分子自组装最新进展

对基于环糊精的超分子自组装的最新研究进展作了综述.详细介绍了环糊精为轮、高分子为轴的聚轮烷的制备及其修饰的方法,同时还介绍了无高分子参与的环糊精的超分子自组装高分子化合物的制备.并且对这些超分子在智能材料、生物医药和聚合催化等方面的应用进行了介绍.     

Chirality manipulation of supramolecular self-assembly based on the host-guest chemistry of cyclodextrin

Chiral materials have been of the interests of scientists for nearly a century. People have endeavored a great effort to manipulate the chirality of various self-assembled materials. Among these efforts, cyclodextrins are used only in recent years, although it has long been recognized that the chirality of cyclodextrin can be transferred to the guest. In this review, we for the first time summarize the recent advancement of the supramolecular chirality manipulation on the basis of the host-guest chemistry of cyclodextrins. By using the simple Harata-Kodaka's rule, natural cyclodextrins can be exploited in a dynamic manner to create chirality inversion materials through crystalline self-assembly, which is facile and environment-friendly. What is more, we also discussed the remarks on future outlooks at the end of this article and expect it to stimulate a rapid development on both the theory and application level.     

基于环糊精的原子转移自由基聚合

综述了近年来基于环糊精的原子转移自由基聚合的最新进展.其中,基于环糊精合成化学的原子转移自由基聚合主要表现在:一方面,通过原子转移自由基聚合反应实现环糊精母体的共价键修饰;另一方面,利用该反应参与构筑非共价键的环糊精自组装体系.而通过原子转移自由基聚合反应获得的这些新型环糊精衍生物和自组装体系还可以被进一步应用到有机合成化学、复杂“智能型”超分子自组装体系的构筑、药物输运与控缓释工具、蛋白识别以及手性分离等领域.     

Hydration of black foam films made of amphiphilic cyclodextrins

We investigate the interfacial behavior of a new type of amphiphilic cyclic oligosaccharide obtained by grafting a phospholipid onto a methylated cyclodextrin. These compounds are able to form stable black foam films, the structure of which can be determined using X-ray reflectivity. These films consist of a highly hydrated bilayer of modified cyclodextrins which are remarkably thick due to their abundant hydration core. In the present paper, we explore the influence of cyclodextrin hydration on the film structure. The hydration rate of the films is tuned by changing the cyclodextrin methylation, by binding the modified cyclodextrins to various molecules (complex formation) and by exposing the films to IR radiation. In addition, we show that the gas permeability of these phospholipidyl-cyclodextrin films is governed by their central layer of bound water, which is an efficient barrier against gas permeation.     

Multiple homo- and hetero-functionalizations of alpha-cyclodextrin through oriented deprotections

Introduction of one or more functions on a cyclodextrin in a regioselective manner is a complex task. The discovery of a blueprint strategy involving regioselective deprotection reactions of fully protected cyclodextrins, instead of functionalization of native cyclodextrins, allowed us to propose an efficient alternative to reach this goal. In this paper, we have applied previously delineated strategies, based on steric decompression, to duplicate our deprotection reaction, using a combination of mono- or di-deprotections to access cyclodextrins with two, three and five points of attachment for one, two or three different new functions. The patterns of multi-functionalization delineated here are not accessible by any other methods. Indeed, it is the first time ever a cyclodextrin bearing four different groups is synthesized in a completely controlled manner. This work paves the way to the use of cyclodextrins as multi-functional macrocyclic scaffolds, a use they have long been meant for, but lack of reliable functionalization methods hindered this development.     

环糊精及其衍生物在环境污染物治理中的应用

环糊精是由不同的D-吡喃葡萄糖单元环状排列而成的圆锥状中空桶形分子,其独特的外亲水内疏水结构决定了其特殊的性能。目前环糊精及其衍生物在药剂学中的应用最为广泛,而在环境污染物治理方面的报道较少。本文介绍了环糊精主-客体包合作用影响因素、环糊精衍生物的合成方法,综述了近年来环糊精及其衍生物在污染水、土壤及大气治理中的研究进展,表明其在环境污染治理方面有较好的应用前景,并提出了其在环境污染物治理中未来的研究方向。     

Crystal Structures of β‐Cyclodextrin Inclusion Complexes with 7‐Hydroxycoumarin and 4‐Hydroxycoumarin and Substituent Effects on Inclusion Geometry

Two inclusion complexes of β‐cyclodextrin‐7‐hydroxycoumarin ( 1 ) and β‐cyclodextrin‐4‐hydroxycoumarin ( 2 ) were prepared and their crystal structures were investigated by single crystal X‐ray crystallography under cryogenic condition. Both structures consist of stacks of face‐to‐face cyclodextrin dimers arranged in brickwork‐like pattern along the crystallographic a‐axis. For complex 1 , each of the two dimeric β‐cyclodextrins includes one 7‐hydroxycoumarin molecule that penetrates deeply into the cyclodextrin dimer and locates its lactonering at the center of the dimer cavity. For complex 2 , each cyclodextrin dimer accommodates three 4‐hydroxycoumarin molecules. One of them is sandwiched between two units of the cyclodextrin dimer, the other two are shallowly included in the cavities of the dimeric cyclodextrins respectively and protrude their lactone rings from the primary end of the cyclodextrin. The substituent effects of guest molecules on inclusion geometry of various coumarin molecules in β‐cyclodextrin were examined.     

环糊精和环糊精包合物

本文作者结合自已的工作，扼要介绍了环糊精化学几个主要领域的研究概况，着重叙述了环糊精的包合作用与环糊精的修饰，描绘了环糊精化学的发展前景。     

State‐of‐the‐art applications of cyclodextrins as functional monomers in molecular imprinting techniques: a review

As a versatile tool in separation science, cyclodextrins and their derivatives, known as emerging functional monomers, have been used extensively in molecular imprinting techniques. The attributes of cyclodextrins and their derivatives are widely known to form host–guest inclusion complex processes between the polymer and template. The exploitation of the imprinting technique could produce a product of molecularly imprinted polymers, which are very robust with long‐term stability, reliability, cost‐efficiency, and selectivity. Hence, molecularly imprinted polymers have gained popularity in chemical separation and analysis. Molecularly imprinted polymers containing either cyclodextrin or its derivatives demonstrate superior binding effects for a target molecule. As noted in the previous studies, the functional monomers of cyclodextrins and their derivatives have been used in molecular imprinting for selective separation with a wide range of chemical compounds, including steroidals, amino acids, polysaccharides, drugs, plant hormones, proteins, pesticides, and plastic additives. Therefore, the main goal of this review is to illustrate the exotic applications of imprinting techniques employing cyclodextrins and their derivatives as single or binary functional monomers in synthesizing molecularly imprinted polymers in areas of separation science by reviewing some of the latest studies reported in the literature.     

Cyclodextrins adsorbed onto activated carbons: preparation, characterization, and effect on the dispersibility of the particles in water

We have investigated the adsorption equilibrium of selected cyclodextrins onto activated carbons. A number of parameters were examined including the type of carbon material, the size of macrocyclic cavity, and the chemical nature of the oligosaccharide (e.g., neutral, anionic, or cationic cyclodextrin). Adsorption isotherm studies revealed that the maximum amount of cyclodextrin immobilized on the carbon surface is obtained for the native β-CD, while the adsorption capacity of the ionic cyclodextrins derivatives strongly depends on the net surface charge of the activated carbon. The affinity of cyclodextrins for activated carbons was further utilized to prepare modified activated carbons containing controlled amounts of cyclodextrins through an adsorption process. The resulting materials were characterized by N(2) adsorption-desorption volumetric measurements, FTIR and Raman spectroscopy, while the quantitative determination of the oligosaccharide content on activated carbons was performed by gravimetric measurements. On the basis of the Turbiscan results, it was found that the chemical structure of cyclodextrins, which are incorporated in the carbon framework, had significant influence on the dispersibility and stabilization of the solid particles in water. Agglomeration and precipitation of the carbon particles were markedly suppressed with substituted cyclodextrins whose hydroxyl groups were partially substituted by methyl or alkylammonium groups.