过渡金属配合物连接的多金属钒酸盐[Co(o-phen)]V2O6·H2O的水热合成和晶体结构

多金属氧酸盐 ( POMs)由于结构新奇 ,物理性能优异 ,在催化、医药、材料和光化学等领域有应用前景 ,而受到人们广泛关注 [1～ 8] .近年来 ,水热技术和有机指导剂的引入促进了 POMs的有机 -无机杂化材料如 [N( CH3) 4]5V18O4 6 [2 ]和 [V4 O10 ( phen) 2 ][3]等研究的迅速发展 .以上化合物多数仅以有机胺为抗衡离子或直接配位连接到无机骨架上 .而以过渡金属配合物为结构导向剂的合成策略 ,最近才引起人们的重视[9～ 11] .本文以钒酸盐 -过渡金属配合物作为研究体系 ,在水热条件下合成了一种未见文献报道的由新型过渡金属配合物连接的…     

无机材料的仿生合成

生物矿化重要的特征之一是细胞分泌的有机基质调制无机矿物的成核和生长, 形成具有特殊组装方式和多级结构特点的生物矿化材料(如骨、牙和贝壳)。仿生合成就是将生物矿化的机理引入无机材料合成, 以有机物的组装体为模板, 去控制无机物的形成,制备具有独特显微结构特点的无机材料, 使材料具有优异的物理和化学性能。仿生合成已成为无机材料化学的研究前沿。本文综述了无机材料仿生合成的发展现状。     

有机基质在仿生材料合成中的应用

利用有机基质的模板作用通过仿生合成可以制备出性能优异的无机材料。文章综述了两亲有机分子、有机高分子、生物大分子三种有机基质在仿生材料合成中的应用 ,并对仿生材料合成这一新兴研究领域的发展趋势及广阔前景作了进一步的展望。     

非表面活性剂模板法合成甲基丙烯酰氧丙基修饰的有机/无机杂化中孔材料

1992年具六角规则孔道及窄孔径分布的ＭＣＭ 41中孔分子筛合成的报道[1,2 ] 激起了中孔材料的研究热潮 .近 3年来 ,用巯基[3 ,4 ] ,苯基[5] ,氨丙基[6] ,烯丙基[7] 和乙烯基[8] 等有机基团修饰的有机 无机杂化中孔材料的研究倍受瞩目 .这些杂化中孔材料兼有无机相的光学特性、热稳定性和有机相的韧性、反应性 ,可以进一步功能化应用于催化、金属离子提取[9] 及涂料[10 ] 等领域 .1 998年 ,Ｗｅｉ等[11] 首次采用葡萄糖、麦芽糖等非表面活性剂有机分子为模板 (或成孔剂 ) ,通过溶胶 凝胶过程合成出高比表面积、孔径可调且孔径分布窄的二氧化…     

聚双(2-吡咯基乙氧基磷腈)的合成、氧化交联和导电性研究

有机 /无机杂化聚磷腈具有优良的加工性能和使用性能 ,可以在许多领域获得应用 [1] .具有光电活性的聚磷腈研究也引起了广泛的关注 [2～ 4 ] . Allcock等 [2 ] 合成了具有离子传导特性的聚磷腈 ,可应用于锂离子电池 .具有非线性光学特性的聚合物也有研究报道 [3 ] . L eung等 [4 ] 合成了具有电致发光基团的聚磷腈 ,部分聚合物具有蓝光发射的特征 .合成化学键合的聚 (N -烷基 )吡咯通用聚合物复合膜材料已经得到了重视[5,6] .本文合成了 2 -吡咯基乙醇 ,将其与反应性无机聚合物聚 (二氯 )磷腈进行高分子取代反应 ,合成了含吡咯侧基的聚磷…     

纳米SiO_2表面引发接枝含短全氟碳侧链嵌段共聚物P(MMA-b-C_6SA)的合成及其性能研究

通过ARGET ATRP(电子转移催化剂再生原子转移自由基聚合)法,以甲基丙烯酸甲酯(MMA)、丙烯酸[N-甲基全氟己烷磺酰胺基]乙酯(C_6SA)为单体,利用干式化学接枝法合成的SiO_2-NH-Br为引发剂,分步接枝得到了表面性能优异的有机/无机复合微-纳结构材料SiO_2-P(MMA-b-C_6SA).该材料经氢氟酸刻蚀后,采用凝胶渗透色谱(GPC)测定了接枝聚合物的分子量及其分布,结果表明在纳米SiO_2表面生长出了分子结构可控的嵌段聚合物.透射电镜观察SiO_2-P(MMA-b-C_6SA)复合物形貌呈现均匀分散的球形颗粒,表明所制备的有机/无机复合物在有机溶剂中具有良好的分散性.热重分析结果表明,该材料化学结构均一,并具有良好的热稳定性.本文采用具有工业应用前景的ARGET ATRP法,将环境友好的含氟单体(C_6SA)接枝在无机粒子表面,赋予其低表面能特性,使其水接触角达到143°,HD的静态接触角达到90°,表现出了优异的疏水疏油性能,并具有自清洁的性能.     

水玻璃为原料在开放体系中快速合成介孔材料MCM-41

自从 M41 S系列硅基介孔分子筛被人工合成以来[1,2 ] ,有关分子筛的合成、性能、形成机理、结构和应用等方面的研究报道不断出现[3～ 5] .目前 ,由有机 -无机离子经分子水平的自组装结合而产生介孔材料的合成机理主要归结于在合成过程中表面活性剂的模板效应 ,如液晶模板机理[1,2 ] 、棒状自组装模型[6 ] 、电荷匹配机理[7] 、层状折皱模型[8] 和使用非离子表面活性剂合成介孔材料等效应[9] .本文以水玻璃作为硅源 ,以十六烷基三甲基溴化铵 (CTAB)阳离子表面活性剂为模板剂 ,在温和条件下 ,采用开放体系合成出具有 MCM-4 1结构特点的介…     

聚合物在仿生合成中的应用研究进展

仿生合成技术通过模拟生物矿化机理,以有机物为模板控制无机物的生成,制备具有特殊结构及性能的无机材料.聚合物是仿生合成中较多采用的有机模板之一,用来控制无机粒子的成核、生长及排列,能够在温和条件下合成具有多级结构、特殊形貌和优异性能的有机,无机复合材料.本文综述了聚合物在仿生合成中的应用研究进展,并指出了存在的问题及发展方向.     

利用室温固态反应制备球霰石型CaCO3粒子

合成形态、大小及结构可人为调控的无机材料是现代材料科学的重要研究方向[1]. 借助于各类有机添加剂及模板剂的调控作用, 可利用溶液合成方法制备出形貌与结构受到有效调控的无机粒子[2,3]. 室温固态化学反应已被成功地应用于多种无机纳米粒子[4]及纳米线[5]的合成, 并显示出高效、节能、无污染和操作简便等优点, 因而在材料合成领域具有应用前景[6].     

一种激光倍频新材料──间羟基苯甲酸的初步研究

二阶非线性光学(NLO)材料又称为倍频材料,在光电子学领域中具有广泛的应用,是近年来研究热点之一[1～4].与无机材料相比,由于有机倍频材料具有非线性光学系数大、响应时间短和抗光伤阈值高等优异性能而倍受人们的关注.但有机材料在透光性能、热稳定性和材料的可加工性方面不及无机材料,使之应用受到很大限制.因而有效地解决这一问题是其得以广泛应用的关键.对于有机倍频材料来说,优化材料综合性能的关键在于保持有机材料优良性能的基础上提高化合物的透光性和热稳定性.有机化合物的分子间氢键和两性离子对改善NLO材料的热稳定性和牢固性…     

St / AA共聚物的组成对碳酸钙结晶及形貌影响的研究

在聚苯乙烯-丙烯酸两亲共聚物(简称PAS)溶液中制备CaCO₃，用XRD、FTIR和SEM等研究随着PAS的亲水AA和亲油St单元组成的变化所引起的聚合物分子链段、溶解性质和胶束空间构象等的改变对CaCO₃晶型和形貌的影响。结果显示：随着亲水性AA单元组成的提高，可以由AA链段的晶面匹配成核调控碳酸钙为方解石纳米晶，并因PAS在水溶液中溶解性不同，形成了多种碳酸钙形貌的聚集体；当St和AA的物质的量比为3∶1时，合成出类珍珠岩层碳酸钙结构。根据PAS的结构性质和在水溶液中的溶解行为初步探讨了类珍珠岩层碳酸钙的形成机理，认为是PAS基质模板和羧酸根对钙的键合作用形成这一特殊形貌碳酸钙。     

Preparation of porous CaCO3/PAM composites by CO2 in water emulsion templating method

Emulsion templating is an effective method to prepare well-defined porous polymeric materials. In this paper, porous CaCO₃/polyacrylamide (PAM) composites were prepared by emulsion templating polymerization in supercritical CO₂(scCO₂) by using a commercial grade surfactant (FC4430), therefore, the amount of the fillers and the pore size distribution of the composites can be modulated based on the demands of those potential applications as biomaterials. Calcium carbonate crystals can be in situ synthesized in the porous PAM matrix, and the morphology of CaCO₃ varied with the conditions of the reaction, the results indicated that three kinds of crystals were observed in the porous matrix. The results of scanning electron microscopy (SEM) and mercury intrusion porosimetry (MIP) showed that the macropores in PAM were interconnected and with narrow pore size distributions.     

Preparation of poly(methyl methacrylate)/CaCO3/SiO2 composite particles via emulsion polymerization

A novel method to prepare organic/inorganic composite particles, i.e. poly(methyl methacrylate)/CaCO₃/SiO₂ three-component composite particles, using emulsion polymerization of methyl methacrylate with sodium lauryl sulfate as a surfactant in an aqueous medium was reported. CaCO₃/SiO₂ two-component inorganic composite particles were obtained firstly by the reaction between Na₂CO₃ and CaCl₂ in porous silica (submicrometer size) aqueous sol and the specific surface area of the particles was measured by the Brunauer–Emmett–Teller (BET) method. The results show that the BET specific surface area of the CaCO₃/SiO₂ composite particle is much smaller than that of the silica particle, indicating that CaCO₃ particles were adsorbed by porous silica and that two-component inorganic composite particles were formed. Before copolymerization with methyl methacrylate, the inorganic composite particles were coated with a modifying agent through covalent attachment. The chemical structures of the poly(methyl methacrylate)/CaCO₃/SiO₂ composite particles obtained were characterized by Fourier transform IR spectroscopy and thermogravimetric analysis. The results show that the surface of the modified inorganic particles is grafted by the methyl methacrylate molecules and that the grafting percentage is about 15.2%.     

纸张涂料用纳米CaCO3表面改性的研究

利用铝锆偶联剂对纳米CaCO₃进行表面改性。采用红外光谱(IR)、X射线衍射分析(XRD)、热分析(TG-DTG)对改性前后的纳米CaCO₃进行了表征。通过透射电镜(TEM)、粒度分析、吸油值、比表面积及静滴接触角等实验对纳米CaCO₃的表面改性效果进行评价。红外光谱分析表明，偶联剂以化学键合的方式在纳米CaCO₃的表面形成化学吸附。TEM及粒度分析结果显示，未改性纳米CaCO₃存在严重的团聚现象，而改性后纳米CaCO₃的分散性有很大改善。经表面改性，水滴在纳米CaCO₃粉体压片表面静滴接触角变大，改性纳米CaCO₃同时具有亲水性和亲油性，能够较好地分散在水和有机相中。将改性前后的纳米CaCO₃分别加入到纸张涂料体系中，制得纳米CaCO₃复合纸张涂料。涂料流变实验表明，经铝锆偶联剂表面改性的纳米CaCO₃制得的复合纸张涂料具有较高的动态弹性模量和粘性模量。     

珍珠质基底上CaCO3晶体的仿生生长研究

珍珠质是一种典型的有机，无机层状复合材料．其中95％以上是文石（CaCO3的一种晶型1小板片，填充在板片之间的薄层有机基质仅占1％-5％。这种精细的组织结构不仅使珍珠质具有绚丽的光泽。还赋予珍珠质超乎寻常的强度和韧性（为合成CaCO3晶体的3000多倍）。虽然在珍珠质中有机质的含量不足5％．然而正是这些有机质对珍珠质的结构、性能、晶体取向等起着至关重要的调控作用。     

Influence of surfactants on the morphologies of CaCO3 by carbonation route with compressed CO2

Three surfactants, sodium dodecyl sulfate (SDS), cetyltrimethylammonium bromide (CTAB) and polyoxyethylene-80-sorbitan monooleate (Tween 80), were used to control the growth of CaCO₃ crystals by carbonation route using Ca(OH)₂ and compressed CO₂. The obtained CaCO₃ particles were characterized by scanning electron microscopy (SEM) and X-ray diffraction (XRD) techniques. The effects of surfactants on the morphology of the particles were studied. It was demonstrated that Tween 80 and SDS have obvious effect on the morphology of CaCO₃ particles, while CTAB does not affect morphology considerably. The possible mechanism has been discussed on the basis of the binding of the surfactants to the certain face of the crystals.     

CaCO3 templated micro-beads and -capsules for bioapplications

Porous CaCO₃ vaterite microparticles have been introduced a decade ago as sacrificial cores and becoming nowadays as one of the most popular templates to encapsulate bioactive molecules. This is due to the following beneficial features: i) mild decomposition conditions, ii) highly developed surface area, and iii) controlled size as well as easy and chip preparation. Such properties allow one to template and design particles with well tuned material properties in terms of composition, structure, functionality — the parameters crucially important for bioapplications. This review presents a recent progress in utilizing the CaCO₃ cores for the assembly of micrometer-sized beads and capsules with encapsulated both small drugs and large biomacromolecules. Bioapplications of all the particles for drug delivery, biotechnology, and biosensing as well as future perspectives for templating are addressed.     

Synthesis and characterization of well-defined poly(methyl methacrylate)/CaCO3/SiO2 three-component composite particles via reverse atom transfer radical polymerization

The attempt to prepare structurally well-defined polymer/inorganic composite particles, i.e., poly(methyl methacrylate) (PMMA)/CaCO₃/SiO₂ three-component composite particles, via reverse atom transfer radical polymerization (ATRP), using 2-2′-azo-bis-isobutyronitrile as initiator and Cu(II) bromide as catalyst was reported. CaCO₃/SiO₂ two-component composite particles were first obtained through sol–gel method, and their morphology and surface element information were determined by transmission electron microscopy and X-ray photoelectron spectroscopy, respectively. The results indicate that the CaCO₃ was encapsulated by the obtained SiO₂. After being modified by silane coupling agent, the CaCO₃/SiO₂ composite particles copolymerized with methyl methacrylate (MMA) under standard reverse ATRP conditions to produce PMMA/CaCO₃/SiO₂ three-component composite particles. In the case concerned, first-order kinetic plots and linear increase of molecular weight (Mn) vs conversion and narrow molecular weight distribution for the graft polymer samples were observed. Furthermore, the gel permeation chromatography results illustrated that both the free PMMA chains from the solvent and the graft PMMA chains from the surface of CaCO₃/SiO₂ two-component composite particles were growing at the same rate. Characterizations of the PMMA-grafted CaCO₃/SiO₂ composite particles were done by Fourier transform infrared and thermogravimetric analysis. The results showed that the surface of the modified inorganic particles was grafted by the MMA and that the grafting percentage was about 8.7%.     

基于碳酸钙-金纳米粒子无机杂化复合物固定硫堇的新方法及其在过氧化氢传感器中的应用

通过静电作用,经碳酸钙-金纳米粒子(CaCO3-AuNPs)无机杂化复合物实现了电活性物质硫堇(Th)在金电极表面的有效固定.AuNPs静电吸附到CaCO3微球表面形成CaCO3-AuNPs无机杂化复合物,该杂化复合物具有微孔结构、大的表面积和好的生物相容性,使得Th的固定量和稳定性大大提高.探讨了Th修饰电极在过氧化...     

The Effects of Intramolecular Hydrogen Bonding on the Reaction of Phenols with Epoxide in the Presence of Nano Calcium Carbonate

The reaction of phenols and dihydroxybenzenes with epoxide in the presence of nano CaCO₃ was studied. Catechol could react with epoxide and gave monochlorohydrin derivative; other dihydroxybenzenes and monomeric phenols had no reaction under the same conditions. The reaction of catechol with epoxide did not occur when nano CaCO₃ was replaced by a normal one. These were attributed to the strong interaction between nano CaCO₃ and the substrate as catechol possessed intrahydrogen bond and excess active hydrogen, which can induce the intramolecular proton transfer via the intramolecular hydrogen bond and promote the reaction of hydroxyl and epoxide. This is an example revealing the unique role of the hydrogen bond played in chemical reactions.