块状Ta2O5-TiO2复合气凝胶的制备与表征

 以乙醇钽、钛酸丁酯为原料，以乙醇为溶剂，通过溶胶-凝胶法及超临界干燥成功制备了Ta₂O₅-TiO₂复合气凝胶。用场发射扫描电镜（SEM）、透射电镜（TEM）、扫描电镜模式下的电子能谱仪（EDS）以及比表面积吸附仪（BET）对其进行表征。结果表明:该气凝胶是由粒径在nm量级的Ti和Ta的羟基氧化物胶体颗粒堆积而成的低密度、高比表积的多孔网络结构材料，孔径分布主要集中在5~15 nm，比表面积为492.9 m²/g，密度为90 mg/cm³左右。     

超低密度SiO2气凝胶的制备及成型研究

 以正硅酸乙酯(TEOS)为硅源，采用酸碱二步催化溶胶-凝胶法，结合超临界干燥技术制备了超低密度SiO₂气凝胶,最低密度为3.4 mg/cm³；进一步结合成型工艺，在解决了模具设计和脱模技术后制备了具有不同密度的柱状和微型套筒样品，密度10～50 mg/cm³。研究了水、催化剂、稀释剂对二步溶胶-凝胶过程的影响，获得了制备低密度SiO₂气凝胶的最佳条件。利用扫描电镜、孔径分布及比表面积测试仪等对SiO₂气凝胶微结构进行了研究。结果表明，获得的超低密度SiO₂气凝胶具有较好的纳米网络，平均孔径18.9 nm，还具有高比表面积898 9 m²/g。     

密度渐变多层碳气凝胶靶型的制备

 以间苯二酚-甲醛为原料,结合自制活动式微模具成型工艺制备不同厚度和密度的碳气凝胶薄片,采用密度为10 mg·cm^-3的SiO₂溶胶为“粘合剂”,获得单元薄片厚度在100～580 μm,密度在50～400 mg·cm^-3范围内变化的5层密度渐变碳气凝胶靶型。重点研究了该特殊靶型内部C/SiO₂气凝胶层间界面情况。采用场发射扫描电镜（FESEM）,X射线相衬成像仪等对靶型整体结构及碳气凝胶单元薄片表面和内部微观结构进行了表征。结果表明：胶粘层SiO₂气凝胶厚度约为15 μm,厚度一致,远小于碳气凝胶层厚度且与碳气凝胶薄片的胶粘程度较好,界面平整,靶结构均匀。     

改性SiO2气凝胶制备及其在ICF实验中的应用

 以正硅酸乙酯（TEOS）为前驱体，采用酸碱两步催化法制备了SiO₂醇凝胶。醇凝胶分别经过TEOS母液、甲基三乙氧基硅烷（MTEOS）处理后，以六甲基二硅胺烷（HMDSA）为疏水改性试剂，制备了改性SiO₂醇凝胶，醇凝胶经溶剂交换后以CO₂作为干燥介质，采用超临界干燥法制备了密度在30～100 mg/cm³的SiO₂气凝胶。用傅里叶变换红外光谱仪（FTIR）对疏水性SiO₂气凝胶进行了研究。研究结果表明,经过改性的气凝胶在潮湿环境中具有极好的尺寸稳定性和疏水性。采用精密车床加工得到了满足惯性约束聚变（ICF）物理试验要求的微柱。     

基于TaCl5的Ta2O2气凝胶制备工艺

 主要介绍了以TaCl₅为前驱体，低分子醇类为溶剂，分别采用环氧丙烷和环氧氯丙烷作为凝胶促进剂制备Ta₂O₂湿凝胶，湿凝胶经过CO₂超临界干燥而获得白色Ta₂O₂气凝胶。透射电镜图谱表明气凝胶是由粒度为10～20 nm的颗粒堆积而成。N₂等温吸附-脱附分析表明，气凝胶的比表面积为800～900 m²/g。     

CO2活化温度对碳气凝胶结构及氢吸附性能影响

 以间苯二酚(R)和甲醛(F)为前驱体制备出RF碳气凝胶,并利用CO₂气体对其进行活化,通过热重分析(TG)、X射线衍射(XRD)、氢吸附等表征手段研究了活化过程中温度对碳气凝胶微结构及氢吸附性能的影响。结果表明：CO₂活化可使碳气凝胶比表面积大幅提高,且不会影响其微孔网络结构。随着活化温度的升高,碳气凝胶非晶性变得更加明显,失重率显著增加,微孔体积、比表面积及氢吸附量先增后减,有望通过改变CO₂活化温度增加碳气凝胶微孔数量来提高其氢吸附性能。     

层间热处理对SiO2/ZrO2双层膜的影响

 以正硅酸乙酯和丙醇锆为前驱体,用溶胶-凝胶法在K9基片上提拉镀制SiO₂/ZrO₂双层膜。采用不同实验步骤制备了2个样品,样品1镀完SiO₂后直接镀ZrO₂ ，样品2镀完SiO₂经热处理后再镀ZrO₂。采用原子力显微镜、椭偏仪、紫外-可见分光光度计对薄膜进行表征。针对SiO₂/ZrO₂双层膜，考虑到膜间渗透的影响，采用３层Cauchy模型进行椭偏模拟，椭偏参数的模拟值曲线与椭偏仪的测量值曲线十分吻合，进而发现热处理可以使SiO₂/ZrO₂双层膜之间的渗透减少近23 nm，从而提高其峰值透射率。利用输出波长1.064 mm，脉宽8.1 ns的激光束对样品进行了损伤阈值的测试，用光学显微镜观察损伤形貌，结果发现两者损伤阈值分别为13.6 J/c2和14.18 J/cm²，均为膜的本征损伤。     

利用聚乙烯亚胺修饰的CaCO3仿生模板合成3D花朵型二氧化硅微球

利用聚乙烯亚胺(PEI)修饰的碳酸钙仿生模板合成了具有3D花朵型形貌的SiO₂微球.通过调整碳酸钙微粒表面不同浓度PEI的吸附量实现SiO₂微球的形貌控制呈现花朵或刀锋的形状. 用XPS和SEM对制备的SiO₂微粒进行表征. 结果表明,不用浓度的PEI修饰可以较好地控制3花朵型DSiO₂微球的形貌.     

SiO2半波覆盖层对HfO2/SiO2高反膜激光损伤的影响

 研究了SiO₂半波覆盖层对HfO₂/SiO₂高反射膜1064nm激光损伤的影响,分析薄膜的激光损伤特性及图貌得出, 对于单脉冲（1-ON-1）激光损伤,SiO₂半波覆盖层能提高HfO₂/SiO₂高反膜的激光损伤阈值;可显著降低激光损伤程度,减小灾难性损伤发生的概率;可大幅度提高HfO₂/SiO₂高反膜膜的抗激光损伤能力。     

AlP/SiO2纳米复合材料的光致发光研究

本文对用溶胶-凝胶方法制备的xAlP/100SiO₂凝胶玻璃的光致发光进行了研究,表明585nm附近的发光是凝胶玻璃中的AlP纳米晶粒表面态和缺陷复合发光.发光峰位与AlP的参杂量无关,但发光峰的强度随x的增加而减弱;另外与H₂的反应时间越长,发光强度减弱.     

浸渍过程对纳米纤维素/二氧化硅复合气凝胶结构与性能研究

纳米纤维素(CNF)气凝胶兼具传统气凝胶的优异特性和自身优良的生物相容性和可降解性,在很多领域应用前景广阔。然而纤维素自身的超亲水性严重限制了其更广泛的应用,为改善纤维素气凝胶的亲水性能,提高其综合应用性能,采用简单浸渍法在纤维素气凝胶基体中引入二氧化硅(SiO_2)颗粒制备纳米纤维素/二氧化硅复合气凝胶,利用傅里叶红外光谱仪(FTIR)分析纤维素气凝胶和复合气凝胶的化学结构;用扫描电镜(SEM)观察气凝胶的微观结构;测定气凝胶的物理、力学性能和接触角。结果表明,复合气凝胶在3 340cm~(-1)处—OH吸收峰较纤维素气凝胶均有所减弱,表明SiO_2的引入促使Si—OH形成,也降低了气凝胶的亲水性,同时有Si—CH3和Si—O—Si吸收振动峰出现,表明三甲基氯硅烷(TMCS)的改性作用以及纤维素与SiO_2颗粒之间形成稳定化学键连接。浸渍时间影响硅含量,进而影响气凝胶的密度、比表面积和孔隙率。当浸渍时间为10min时制备的复合气凝胶性能较好,其微观结构分布均匀,具有疏水性能,接触角可达152°,同时气凝胶仍具有较好的力学性能和较低密度,其压缩模量和压缩性能分别为5.91和1.38MPa,密度为0.1g·cm~(-3)。     

Silica Aerogel: Synthesis,Characterization, Applications,and Recent Advancements

Silica aerogels have drawn considerable attention due to their low density (almost 95% of the total volume is composed of air), hydrophobicity, optical transparency, low conductivity of heat, and large surface to volume ratio. Sol–gel processing is used to prepare aerogels from molecular precursors. To replace the pore fluid with air while retaining the solid network, a supercritical drying process (the most frequent approach) is used. However, recent technologies use atmospheric pressure to allow for liquid removal followed by chemical alteration of the gel's internal layer, which leaves only a silica network with a porous structure filled with air. This study discusses the sol–gel method for preparing silica aerogels and their various drying processes. Furthermore, various areas of applications of silica aerogels, including electronics, construction, aerospace, purification of water and air, sensing, catalyst, biomedical, absorbent, food packing, textile, etc., are also discussed. Lastly, this review provides a perception of the recent scientific progress along with the futuristic development of silica aerogel.     

Hydrophobic and physical properties of the ambient pressure dried silica aerogels with sodium silicate precursor using various surface modification agents

The experimental results on the synthesis and physical properties of the ambient pressure dried hydrophobic silica aerogels in the presence of various surface modification (silylating) agents are presented. The silica aerogels were prepared with 1.12 specific gravity ion exchanged sodium silicate solution, 1N ammonium hydroxide, solvent exchanged with ethanol and hexane, and surface modification with 20% silylating agent in hexane followed by drying the modified gel up to 200 °C. The molar ratio of sodium silicate, water, ammonium hydroxide and silylating agent was kept at 1:45:4.3 × 10⁻²:5, respectively. The physical properties of the aerogels such as density, % of porosity, pore volume, thermal conductivity and contact angle measurements were studied by using various mono, di and tri alkyl or aryl silylating agents (SAs). The tri alkyl silylating agents produced low % of volume shrinkage (2%), low density (0.06 g/cm³), low refractive index (1.011), more pore volume (16.15cm³/g), high percentage of porosity (96.9%) and hydrophobic (contact angle >150°) silica aerogels. It was found from the Fourier transform infrared spectroscopic (FTIR) studies of the aerogels that the intensity of the bands related to the SiC and CH are more and the SiOH and OH are less with the tri than mono and di alkyl SAs. It was found from the TGA-DTA studies of the aerogels with increase in temperature above 325 °C, the % of weight decrease in TGA and exothermic peak in DTA are more with tri than the mono and di alkyl SAs. The SEM studies of the aerogels showed the large pore and particle sizes in the silica network with the tri alkyl SAs. The % of optical transmission of the aerogels is less with the tri alkyl SAs than the mono and di alkyl SAs. It was found from the contact angle and water adsorption studies that the hydrophobicity of the silica aerogel is more with tri alkyl than the di and mono alkyl silylating agents.     

种子法制备金掺杂二氧化硅气凝胶

 采用羟胺种子法合成了金掺杂二氧化硅气凝胶。采用紫外 可见光分光光度计研究了还原过程中体系的变化情况。使用透射电镜（TEM）研究了气凝胶的微观结构，气凝胶的比表面积和孔径分布由BET-BJH方法测试。结果表明通过种子法可以制备金掺杂质量分数0.01%~1.00%，密度25～50 mg／cm³，比表面积达800 m²/g以上的SiO₂气凝胶样品。     

A molecular model of adsorption in a dilute semiflexible porous network

A Monte Carlo simulation study has been made of adsorption and desorption of a gas in a semiflexible porous network with a porosity of over 95%, which is comparable with that of silica aerogels. Although dilute, the network has substantial effects on the properties of confined fluids. Network flexibility is shown to make a significant difference to both the adsorption/desorption isotherms and the fluid phase coexistence when compared with the case where the network is rigid. For one of the systems studied the solid volume changes by as much as 30% during desorption. This is qualitatively similar to an effect seen in nitrogen adsorption/desorption in some silica aerogels.     

超低密度SiO2气凝胶的制备研究

超低密度的SiO2气凝胶是一种经典的三维网状纳米多孔材料,已经广泛应用于如保温隔热、吸附等多种领域。以四甲氧基硅烷(TMOS)为硅源,采用酸碱两步法,利用乙醇超临界干燥技术制备了超低密度的SiO2气凝胶,分别利用SEM\TEM\BET等表征手段对该气凝胶进行了一系列的研究,发现当其密度为0.6 mg/cm3时,气凝胶拥有最佳的综合性能。该种气凝胶具有超低密度、高比表面积、加工成型性好、制备周期短等优点,有望在激光惯性约束聚变实验中作为冷冻靶发挥巨大的作用。     

Imperviousness of the hydrophobic silica aerogels against various solvents and acids

The experimental results on the imperviousness of the silica aerogels against various organic solvents and acids, are reported. Various types of hydrophobic silica aerogels were prepared using methyltrimethoxysilane (MTMS); tetraethoxysilane (TEOS) with ethyltriethoxysilane (ETES) and phenyltriethoxysilane (PTES) as co-precursors. The organic solvents used were: methanol, ethanol and acetone, and the acids used were: hydrochloric acid (HCl), nitric acid (HNO₃) and sulphuric acid (H₂SO₄). The imperviousness of the aerogels against these solvents and acids were tested with the variation of the percentage of organic solvents and acids in water from 10 to 100% and was characterized by the contact angle measurements. It was observed that in all the cases, the contact angle decreased with an increase in the percentage of solvent in water. While there was no absorption of the solvent up to 20% in water by the ETES and PTES modified aerogels, the MTMS-based aerogels showed the imperviousness up to 60% of the solvent in water. The MTMS aerogels were also impervious against all the three acids up to 100%, while the ETES and PTES modified aerogels could withstand only up to 80% of acids in water.     

Electrical and infrared dielectrical properties of silica aerogels and of silica-aerogel-based composites

In this contribution we have studied the key electrical parameters of silica aerogels and of silica-aerogel-based composites, namely the dielectric constants , the dielectric losses tan (at 1 kHz), and the breakdown fields E _b (at 50 Hz). For low-density bulk silica aerogels we find =1.25 and tan =0.0005. E _b is about 500 kV/cm in quasi-homogeneous fields, and of the order of MV/cm in strongly inhomogeneous fields. The dielectric constants of partially densified aerogels increase linearly with density; their dielectric losses are relatively large and their breakdown fields are comparativiely low. The same results are found for aerogels in the form of settled materials, i.e. aerogel granules and powders in air. Acrylate-based aerogel composites with volume fractions larger than 70% have low dielectric constants but their losses are at least 10 times higher than those of low-density aerogels. These materials sustain high local fields in the MV/cm region, while in quasihomogeneous fields, breakdown occurs at about 100 kV/cm. Based on the present results and the interplay with other physical properties (low mechanical resistance, low thermal conductivity, adsorption of water, etc.), silica aerogels and silica aerogel-acrylate-based composites are predicted to have a low potential for electrical insulation.     

低密度Cu掺杂SiO_2复合气凝胶的制备及表征

分别以正硅酸甲酯、醋酸铜为硅源和铜源,通过溶胶凝胶法及CO2超临界干燥技术制备了一系列Cu掺杂SiO2复合气凝胶。采用红外谱仪(FTIR)、扫描电镜(SEM)、X射线能谱仪(EDS)、比表面积和孔隙度分析仪(BET)、动态热机械分析仪(DMA)对样品进行了表征。结果表明随着铜含量的增加,复合气凝胶密度增加,比表面积降低,平均孔径增加,实际掺杂比与理论掺杂比对应增加。该复合气凝胶具有三维网状结构,密度低(40mg/cm3),比表面积高(390m2/g),成型性较好,有望应用于惯性约束聚变(ICF)实验。