渗透汽化膜表面化学结构设计研究

综述了近年来渗透汽化膜表面结构设计调控的研究进展。膜表面结构的设计与优化是提高其分离性能的重要方法。然而高分子表面具有环境响应性,这往往导致高分子材料在使用环境中失去在表面设计时所期待的性能。因此,高分子膜表面的环境响应性是在对膜表面进行设计和调控过程中必须考虑的因素。本文介绍了渗透汽化膜表面结构设计的方法,重点阐述了高分子膜表面环境响应特性对膜表面性质以及渗透汽化性能的影响。指出了利用高分子膜的表面重构行为可以对其表面结构进行优化,从而有效地提高膜的分离选择性。     

高分子表面环境响应的应用

高分子表面具有环境响应性，利用此特性可设计新型表面功能材料。本文叙述了高分子表面环境响应性应用的进展。     

生物分子响应性高分子材料

在智能高分子材料中,生物分子响应性高分子能够在糖类、多肽和酶等生物分子的刺激下发生宏观性质(如:体积、表面浸润性和硬度等)的大幅转变。生物分子响应性聚合物材料包括水凝胶、共聚物膜等类型,一般通过与生物分子间的氢键、分子间作用力等弱相互作用实现响应过程,在组织工程、功能材料、生物传感、药物可控释放等领域有广泛应用前景,吸引了大量科研人员的关注。与传统外源性刺激(温度、pH、光等)相比,生物分子作为刺激源的智能高分子材料具有更好的靶向性和生物相容性,能满足生物医用材料在人体内的应用,可以作为开发新一代精准药物的靶向释放平台。本文分别对糖类、蛋白、酶和DNA四类生物分子响应性高分子材料的结构设计、响应机制及相关应用进行概述,并对生物分子响应性高分子的发展方向作了展望。     

红外驱动的动态褶皱图案:一种实现智能材料表面的有效途径

响应性表面微纳米图案可以通过外界刺激动态调控表面微纳米结构,从而实现对材料表面性能的动态调控。其中,利用材料表面不稳定性构筑褶皱是制备表面微纳米图案的通用方法,然而如何实现微纳米褶皱图案的动态调控仍然面临挑战。上海交通大学姜学松研究团队在刺激响应性高分子表面方面开展的研究工作取得了一系列阶段性成果。最近该团队提出了一种简单、普适的制备具有近红外光响应性的动态微纳米表面褶皱图案的策略,实现了对材料表面微纳米结构的多重刺激响应性调控,为构建智能材料表面开辟了新途径。     

PMVS/SiO2复合体系中粒子表面处理对动态粘弹特性的影响

粘弹性是高分子材料最本质的特征,其与高分子结构的关系一直是多组分高分子材料研究的热点。目前,对于填料增强聚硅氧烷体系的研究主要集中于填料在聚合物中的分散以及增强机理等方面,而有关不同填料表面特性体系的粘弹响应的研究报道尚不多见．在前文报道未经表面处理的超细SiO2填充聚甲基乙烯基硅氧烷(Polymethylvinylsiloxane,PMVS)的粘弹性研究的基础上,本文采用双(γ-三乙氧基硅基丙基)四硫化物IBis(3-triethoxysilyl)tetrasul{ane,TESPT]对SiO2进行表面处理,并采用溶液共混法制备样品,研究了经表面处理的SiO2填充PMVS体系的动态粘弹行为,并探讨了其结构变化与粘弹响应的关系。     

高分子的表面化学组成与生物相容性

生物相容性是高分子材料在临床上用作医用装置的基本要求，改变高分子材料的表面化学组成是提高其生物相容性的重要途径。综述了构建表面化学组成改性高分子材料生物相容性的最新研究进展，并对改善高分子材料生物相容性的研究方法提出了一些看法。     

高分子载体材料对青霉素酰化酶的固定化作用

介绍了天然高分子材料和合成高分子材料对青霉素酰化酶的固定化作用,着重讨论了高分子材料的制备、性质及其表面修饰对固定化酶活性和使用稳定性的影响。     

高分子表面微纳米结构的构筑及应用

近年来,纳米科技在高分子材料上的应用给高分子科学和材料的发展注入了新的活力.高分子材料表面微纳米结构与材料的性能密切相关,其微纳米结构结合高分子材料本身丰富多彩的特性,在材料科学、微电子学以及细胞生物学等方面都有重要的科学意义和应用价值.目前关于高分子材料表面微纳米结构的构筑已有大量报道,涉及的实验方法和材料非常广泛,大体上可以分为模板法和非模版法.在运用中往往需要综合利用高分子的各种特性和多种实验方法.本文以构筑方法分类,综述了近十几年来在高分子表面构筑微纳米结构的研究进展,对其应用前景做了简要介绍.     

非晶固体高分子表面的低温流动特性

高分子低温加工是材料领域重大挑战。相较于本体分子,位于材料表面高分子链的玻璃化转变温度降低、黏度减小、塑性增强,为高分子材料低温加工提供了可能途径。本文总结了近年来对非晶固体高分子表面分子运动的研究成果,从表面分子动力学的角度阐述了高分子表面低温流动性的起源及其影响因素,举例介绍了表面低温流动特性在高分子材料低温粘结、自愈合以及加工成型等方面的应用,并对未来研究及前景进行了展望。希望通过本文加深对高分子表面低温流动行为的认识和理解,促进高分子材料加工和成型新方法和新概念的发展。     

纳米Sb_2O_3表面原位(共)聚合处理对HIPS纳米复合材料力学性能的影响

通用高分子材料的工程化和工程高分子材料的高性能化是高分子材料研究与开发的主要方向之一，核心、关键技术是高分子材料的同时增强、增韧，其中利用纳米无机刚性粒子与高分子材料复合是一条最简单而又行之有效的途径．由于无机纳米填料是亲水性的、表面能极高，有机高分子不能浸润填料或与填料表面相互作用弱，导致纳米粒子在高分子基体中易于团聚而分散性差，其复合材料力学性能低下．利用硬酯酸、非离子表面活性剂、表面辐照接枝处理纳米粒子表面忙，     

Occurrence, biological activities and synthesis of kaurane diterpenes and their glycosides

This paper presents a review on kaurane diterpenes and their glycoside derivatives, covering aspects of their occurrence, biological activities and the synthesis of these natural products and their analogues. First, it shows and classifies diterpenes, in accordance with the already established structural criteria in the literature. Then, kaurane diterpenes are presented, focusing on their chemical structures, occurrence in the plant kingdom and their main, recently described, biological activities. Moreover, the most significant works, published between 1964 and November 2006, which describe the total synthesis or structural transformations of some kaurane diterpenes, including either semisynthetic and/or microbiological methodologies, are consisely reviewed. At this point, some general considerations on glycosides are introduced, and kaurane glycosides are presented and discussed on the basis of their toxic importance and occurrence in the plant kingdom, having focused on related aspects of their biological activities and the relationships between these activities and the structural factors of their molecules. Finally, the principal methods of glycosidation by enzymatic and chemical processes are both presented, and a few papers on the synthesis of kaurane glycosides are succinctly discussed.     

One-component silicon adhesives-sealants

One-component adhesives-sealants, mechanisms of their synthesis and cure, the most important fields of their application, and peculiarities of their production under actual plant conditions are described. The assortment of domestic adhesives-sealants and their main developers and producers are reported. The most important parameters of the properties of domestic one-component adhesives-sealants, Elastosil, Pentelast, Avtogermesil, and other grades, are discussed.     

The Role of Interface on the Properties of Cluster Assemblies

Atomic clusters characterized by finite size, low dimensionality, and reduced coordination number exhibit many novel properties that are very different from their bulk. As these clusters are assembled, their properties can be significantly altered due to the interaction of these clusters with each other as well as with their support. This paper provides a brief review of the cluster properties that are affected when clusters are deposited on metallic or organic substrates, isolated in matrices or in zeolite cages, coated with acetate ligands, or simply allowed to self-assemble without the presence of any reactive species. It is shown that the interface between the clusters and their support can play an important role on the properties of clusters as their unique characteristics do.     

One-step synthesis of large-aspect-ratio single-crystalline gold nanorods by using CTPAB and CTBAB surfactants

Gold nanorods were prepared in high yields by using a one-step seed-mediated process in aqueous cetyltripropylammonium bromide (CTPAB) and cetyltributylammonium bromide (CTBAB) solutions in the presence of silver nitrate. The diameters of the nanorods range from 3 to 11 nm, their lengths are in the range of 15 to 350 nm, and their aspect ratios are in the range of 2 to 70. The diameters of the Au nanorods obtained from one growth batch in CTPAB solutions decrease as their lengths increase, and their volumes decrease as the aspect ratios increase. The diameters of the Au nanorods obtained from one growth batch in CTBAB solutions first decrease and then slightly increase as their lengths increase, and their volumes increase as the aspect ratios increase. These Au nanorods are single-crystalline and are seen to be oriented in either the [100] or [110] direction under transmission electron microscopy imaging, irrespective of their sizes. To the best of our knowledge, this is the first report of the preparation by using wet-chemistry methods of single-crystalline Au nanorods with aspect ratios larger than 15.     

The synthesis and characterization of aliphatic sulfonic acid cation exchangers for HPLC

Summary Two oxidation procedures for the synthesis of silicabased aliphatic sulfonic acid cation-exchangers for HPLC are described. Several reaction conditions for oxidizing a terminal-bonded thiol with organic peroxides are provided along with their yields, capacities, reproducibility, and chromatographic behavior. Also, three methods for determining exchange capacity are discussed, and their relationship to the capacity factors of charged solutes is compared. The maximum capacity determined by the titration of the bonded silica was 0.34 meq/gram. The general problems of synthesizing cation-exchangers, measuring their efficiencies and exchange capacities, and evaluating their overall performances are outlined.     

Organizational stabilities of bulk neat and well‐mixed,blended polymer samples coalesced from their crystalline inclusion compounds formed with cyclodextrins

Cyclodextrins (CDs) are cyclic starches containing α‐1,4‐linked glucose units. Commonly available α‐, β‐, and γ‐CDs have six, seven, and eight glucose units, respectively. They are well known for forming noncovalent inclusion complexes (ICs) with a variety of guest molecules, including many polymers, by threading and inclusion into their relatively hydrophobic interior cavities, which are roughly cylindrical, with diameters of ～0.5–1.0 nm. Warm water washing of crystalline CD‐ICs containing polymer guests insoluble in water or treatment with amylase enzymes serve to remove the host CDs and result in the coalescence of the guest polymers into solid bulk samples. When guest polymers are coalesced from their CD‐ICs by carefully removing the host CD lattices, they are observed to solidify with structures, morphologies, and even conformations that are distinct from bulk samples made from their solutions and melts. In addition, molecularly mixed, intimate blends can be obtained upon coalescence of two or more normally immiscible polymer guests from their common CD‐ICs. Not only are the organizations and behaviors of bulk polymer samples significantly modified on coalescence from their CD‐ICs, but both are also maintained for significant periods of time even when heated above their T_gs and T_ms, where their chains are mobile. Here, we discuss the long‐time, high temperature stabilities of the organizations and properties of bulk polymers coalesced from their crystalline CD‐ICs. While random‐coiling of their initially coalesced, largely extended, separated, and unentangled chains may be relatively rapid, we conclude that the subsequent slow establishment of homogeneous melts or phase‐segregated blends results from the extremely sluggish center‐of‐mass diffusion that must accompany full entanglement of their chains. Apparently, the process of entangling the largely separated and not fully interpenetrating randomly coiled chains initially coalesced from their CD‐ICs is particularly slow, much slower in fact than the center‐of mass diffusion of polymer chains in their fully entangled melts. © 2009 Wiley Periodicals, Inc. J Polym Sci Part B: Polym Phys 47: 1543–1553, 2009     

Multi‐Stimuli‐Responsive Polymeric Materials

Stimuli‐responsive materials are of immense importance because of their ability to undergo alteration of their properties in response to their environment. The properties of such materials can be tuned by subtle adjustments in temperature, pH, light, and so forth. Among such smart materials, multi‐stimuli‐responsive polymeric materials are of pronounced significance as they offer a wide range of applications and their properties can be tuned through several mechanisms. Here, we aim to highlight some recent studies showcasing the multi‐stimuli‐responsive character of these polymers, which are still relatively little known compared to their single‐stimuli‐responsive counterpart.     

π-Conjugated Unit-Dependent Optical Properties of Linear Conjugated Oligomers

The optical properties of three linear conjugated oligomers （F-P, F-P-F, and P-F-P-F-P）, where phenothiazine （P） and fluorene （F） groups arrange alternately, are investigated. With the enhancement of the π-conjugated system, their absorption and emission bands both gradually red shift, and their two-photon properties are also improved. Meanwhile, their fluorescence dynamic traces are analyzed with continuous rate distribution model, exhibiting that their decay rates gradually accelerate and the rate distribution width become narrower. The quantum chemical calculation offers their molecular structures and transition mechanism, showing that the enhancement of π-conjugated system should be responsible for tile improvement of two-photon properties.     

功能性两亲嵌段共聚物的研究进展

功能性两亲嵌段共聚物因自身独特的性质而在靶向输送、控制释放、分子识别等领域得到广泛的应用.本文对这类嵌段共聚物的合成方法、其胶束的形成机理、制备形式、表征手段以及一些常见的具有光学活性的两亲嵌段共聚物及其应用进行了综述.     

New strategies to study the chemical nature of wine oligomeric procyanidins

Tannins represent a key element in red wine flavors, so researchers have made a lot of effort to try to understand the role of their structure in wine taste in recent decades. We report some new routes to achieve a true structure–taste relationship for the major tannins found in wine, which are procyanidins in their monomeric or oligomeric state. All these routes use synthetic standards. New advances in their synthesis and their analyses using chromatographic methods, NMR spectroscopy, and mass spectrometry to obtain more precise information about their chemical structure, including their stereochemistry and their precise degree of polymerization and galloylation, are described.