块状TiO2气凝胶的制备及其表征

随着以溶胶-凝胶法和超临界干燥技术为基础的气凝胶制备方法的逐步完善,已不断制备出多种气凝胶[1～3].由于TiO2具有半导体特性,它常被作为光催化剂而受到重视,但是TiO2气凝胶的结构强度远比SiO2气凝胶小,在制备过程中极易碎裂粉化,所以至今未见制备块状TiO2气凝胶的报道.Dagan等[4]曾用异钛酸丁酯为母体制得TiO2气凝胶,并发现水杨酸在TiO2气凝胶存在下的光解速率是一般TiO2粉末的10倍,但获得的仅为TiO2气凝胶粉末.张敬畅等[5]以无机盐为原料,采用溶胶-凝胶法结合超临界干燥技术制备了纳米级TiO2气凝胶,也未能得到块状TiO2气凝胶材料. 本文报道以正钛酸丁酯为原料制备块状TiO2气凝胶的方法,并用TEM,SEM,XRD和IR等手段对所获得的气凝胶进行了结构表征.     

溶胶－凝胶法制备超细SiO_2──制备参数对气凝胶织构性质的影响

ＳｉＯ_２气凝胶超细粉由ＴＥＯＳ（正硅酸乙酯）在乙醇溶液中水解聚合后经超临界流体干燥（ＳＣＦＤ）制得。本文考察了ＴＥＯＳ的浓度、水和ＴＥＯＳ的摩尔比以及焙烧温度对超细粉织构性能的影响。结果表明，超细ＳｉＯ_２的比表面积、总孔容、孔分布、最可几孔径及表现堆密度均随制备参数而改变。而以ＳｉＯ_２气凝胶超细粉体为基本载体材料的Ｃｏ／ＺｒＯ_２－ＳｉＯ_２催化剂显示出高的ＣＯ＋Ｈ_２合成重质烃的活性和选择性。     

高性能聚酰亚胺气凝胶的制备进展

气凝胶是轻质开孔的介孔材料,由于其特殊的性质,如低密度(0.003~0.5g/cm3)、高孔隙率(70%~99.8%)、低介电常数(~1.1)、低热导率(最低为0.012W/(m·K))和高比表面积(100~1600m2/g),因此可应用于隔热材料、隔音材料、催化剂载体、药物缓释材料、低介电材料、吸附剂等。聚酰亚胺是一类重要的高性能聚合物,近些年,聚酰亚胺气凝胶备受重视。本文综述了现有多种聚酰亚胺气凝胶的制备方法及其优缺点,并对今后的研究工作进行了展望。     

新颖的玻璃制备方法—溶胶—凝胶法

长期以来,玻璃和光学纤维玻璃的制备几乎都是使用熔融—冷却法。这种方法不仅需要昂贵的生产设备,而且难以得到高纯度和高均匀度的材料。尤其是对于一些具有特殊结构和高熔点的玻璃材料,熔融—冷却法往往无能为力。     

溶胶-凝胶法制备In-Cd纳米复合氧化物及其气敏性能研究

采用溶胶凝胶法制备了In20rCdln2O4和CdO-Cdln2O4纳米复合氧化物,利用扫描电子显微镜(SEM)和X射线衍射仪(XRD)对复合材料的形貌和结构进行表征,并对其进行了乙醇、丙酮等多种气体的气敏性能测试.结果表明Cdln2O4材料复合h12O3和CdO后显著提高了对丙酮和乙醇气体的灵敏度和选择性.     

超临界干燥法制备SiO2气凝胶的研究

通过溶胶－凝胶法和超临界干燥技术制得了ＳｉＯ２气凝胶，研究了溶液的ｐＨ值对凝胶时间及气凝胶密度的影响，应用ＸＲＤ、ＳＡＸＳ、ＴＥＭ和等方面对气凝胶样品的结构进行了初步研究，结果表明，ＳｉＯ２气凝胶是连续网络的非晶态纳米多孔固体，其基本粒子的平均直径约１０ｎｍ．     

溶胶-凝胶法及其在生物材料方面的应用

描述了溶胶－凝胶法的基本过程及其基质特点，对酶及其它蛋白质掺杂于溶胶－凝胶基质中进行了评述，并预测了将来的发展趋势．     

气凝胶

气凝胶是由胶体粒子或高聚物分子相互聚结构成纳米多孔网络结构，并在孔隙中充满气态分散介质的一种高分散固态材料。近来来气凝胶研究得到了很大的发展，本文对气凝胶的制备方法、结构与特性、应用前景等方面的研究进展作一简要的评述。     

氧化铁气凝胶的制备及其表征

气凝胶是由纳米量级超细微粒或高聚物分子构成的多孔性固态材料^[1,2],其杨氏模量、声传播速率、折射率、热导率和电导率等均与其宏观密度成标度关系.它拥有反常输运特性、动力学性质和低温热学性质.     

溶胶-凝胶工艺制备发光薄膜研究进展

本文综述了通过深胶－凝胶工艺制备发光薄膜的基本过程、薄膜的表征方法、发光薄膜的当前发展及应用情况。依据组成特点,对溶胶－凝胶法制备的发光薄膜乾地了分类阐述,并预言了今后该法制备发光薄膜的发展趋势。     

活性炭基水解催化剂的制备及其脱硫性能的研究

分别通过溶胶-凝胶法、浸渍法制备Cu/活性炭(AC)水解催化剂,考察了不同制备方法对水解脱硫性能的影响。利用XRD、BET、SEM等对载体及催化剂进行表征,分析了预处理对AC表面性质及不同制备方法对脱硫效率的影响,并探讨了水解脱硫的机理。结果表明,浸渍法所制备的水解催化剂活性优于溶胶-凝胶法制备的催化剂,在通过预处理增大了AC的比表面积、丰富了AC的孔道结构的基础上,浸渍法能均匀地将活性组分分散在载体表面及其孔道中,而溶胶-凝胶法制备的催化剂活性组分主要覆盖在载体的表面,不能有效进入孔道内,造成脱硫效率下降。在反应温度80℃、羰基硫浓度1.33g/m~3、空速1500h~(-1)、氧化铜质量分数为5%时,浸渍法制备的水解催化剂具有较高的硫容,可达29mg S/g。     

溶胶--凝胶法制备间甲酚甲醛炭气凝胶

以间甲酚为原料 ,与甲醛在NaOH催化作用下经溶胶—凝胶过程制备出新型块状纳米材料炭气凝胶 ,考察了原料配比对凝胶时间和气凝胶特性的影响 ,用TG、FT -IR、TEM和低温N2 吸附等手段表征了气凝胶的微结构。     

The effect of heat-treatment on the physico-chemical properties of silica aerogel prepared by sub-critical drying technique

Synthesis of transparent and crack-free monoliths of silica aerogel by sub-critical drying technique is reported in the present article. Silane ageing with 50% tetraethylorthosilicate:ethanol followed by solvent exchange using ethanol was adopted. The effect of heat-treatment on the textural and physical characteristics of silica aerogel was evaluated. The chosen composition resulted in a high surface area silica aerogel of 1,000 m² g⁻¹ and a pore volume of 1.4 cm³ g⁻¹ at room temperature. The aerogel heat-treated at 900 °C possessed a surface area of 450 m² g⁻¹ with a pore volume of 0.4 cm³ g⁻¹. The decrease in surface area and pore volume was associated with the sintering process. The present technique seems advantageous in preserving the high surface area of the material at high temperatures. The XRD studies showed that the amorphous nature of aerogel matrix was retained till 1,400 °C, beyond which it crystallized to phase pure crystoballite.     

New trends in aerogel physics

Aerogels offer an exceptional association of interesting structural peculiarities and physical properties: large nanoporosity, huge internal surface, very low sound velocity, high thermal resistance, excellent optical transparency can be obtained on the same sample. A better understanding of these properties is directly related to progresses in the knowledge of the structure and dynamics of aerogels, which are reviewed in this paper. The peculiar properties of aerogels opened recently the way to interesting developments, which are also discussed.     

Electrospun nanofibrous membranes embedded with aerogel for advanced thermal and transport properties

The primary purpose of cold weather clothing is to shield the wearer from the extremities of the external environment. The thermal properties of nanofibers and their potential applications have tremendous scope and application in this area. The objective of this study was to investigate the mechanisms of heat transfer through fibrous insulation where the fiber diameter was less than 1 μm. Electrospinning process was used to produce flexible polyurethane and polyvinylidene fluoride nanofibers embedded with silica aerogel. The thermal and transport behavior of the samples was evaluated, and results were statistically analyzed. Presence of aerogel particles were confirmed through microscopic examination. Thermal behavior was investigated by using thermogravimetric analysis and differential scanning calorimetry. The results showed that the polyvinylidene fluoride nanofibrous membranes embedded with aerogel obtained a good thermal stability with lower weight loss than polyurethane nanofibrous membranes. The glass transition and melting point was not affected by the aerogel content in the layers, validating that polymers are not miscible. The increase in duration of electrospinning led to higher web thickness, which resulted in considerable decrease in air permeability. Considerable improvement of thermal insulation was observed by increasing the number and the weight per unit area of both nanofibrous membranes. The results confirmed increase in thermal insulation by embedding silica aerogel in nanofibrous membranes. With reference to the results, it could be concluded that nanofibers embedded with aerogel are good for thermal insulation in cold weather conditions. Thermal insulation battings incorporating nanofibers could possibly decrease the weight and bulk of current thermal protective clothing.     

一种纳米蜡乳液的制备及应用研究

研究了一种纳米蜡乳液的制备方法。通过测试证明该体系稳定,得到平均粒径为57.6nm大小的纳米蜡乳液,可代替各种行业中使用的普通蜡乳液,如皮革[1]、纺织[2]、造纸[3][4]等行业·     

Superhydrophobic and superoleophilic polyethylene aerogel coated natural rubber latex foam for oil-water separation application

The oil-water separation has made an attention due to over-increased production of oily water from the industrial process and everyday routine of humans. The current work reports on preparation and characterization of High-Density Polyethylene (HDPE) aerogel coated Natural Rubber Latex foam (NRLF) with superhydrophobic and superoleophilic character, good sorption capacity for oil-water separation application and were investigated. The HDPE aerogel and the coated NRLF material was prepared by a cooling process from a solution of HDPE in xylene solvent (HDPE sole, which resulted into thermally induced phase separation of the Polyethylene molecular network). The HDPE aerogel coated NRLF displayed a porous surface morphology with particle-like structural features. The HDPE aerogel coated NRLF showed superhydrophobicity with static water contact angle >150°. The effect and recyclability of the HDPE aerogel coated NRLF for oil-water separation was investigated using different model oil solvents to explore their repeatable application in oil spill clean-up process. Modified NRLF shows an excellent mechanical property (compressibility). The average modulus and average stiffness of the modified NRLF increased with the increase of the concentration of HDPE sol. The modified superhydrophobic sponge has good durability under acid and base conditions.     

Au‐dimercaprol functionalized cellulose aerogel: Synthesis,characterization and catalytic application

A new derivative of cellulose aerogel was prepared via functionalization of cellulose with dimercaprol. Dimercaprol, as a chelating agent of Au(III), was applied for the loading of Au(III) on cellulose aerogel. The new organogold compound after characterization was used as an efficient heterogeneous catalyst in the oxidation reactions of aliphatic alcohols, benzyl alcohol, and ethylbenzene. Excellent selectivities and good conversions were obtained in the green oxidation reactions of alcohols and ethylbenzene. The high porosity of cellulose aerogel led to the good conversions with the low catalyst amounts. The significance of the presented work is the introducing of an environmentally benign process for the oxidation reactions based on a biocompatible catalyst.     

纳米粒子及其材料的特性、应用和制备

本文介绍了纳米粒子的一般概念、特性及本质根源。纳米粒子因其特异的性能在高科技领域得到了日益广泛的应用。文中对纳米材料现有的应用及其前景作了简要的介绍，并综合评述了目前国内外制备纳米粒子的常用方法，综述了引起粒子间团聚的机理和后处理过程中有效地防止团聚的方法。