碱/酸两步催化法制备耐候性SiO2增透膜的研究

以正硅酸乙酯(TEOS)为先驱体,采用碱/酸两步催化溶胶-凝胶法制备出一种兼具碱催化增透膜的高透过率和酸催化增透膜的良好耐摩擦性能的优点的SiO2增透膜。对酸碱催化SiO2相对比例及酸催化时水含量的系统研究表明,当酸催化SiO2的含量为50%时,增透膜综合性能最好,即具有高透过率和高耐摩擦性;当nH2O/nHCl=1∶0.0010时,增透膜的透过率最高。碱/酸两步催化法制备的增透膜与水的接触角仅为11.3°,本文进一步用六甲基二硅氧烷(HMDS)对增透膜表面进行了修饰,修饰后增透膜的接触角提高至52.5°,增透膜的疏水性及环境稳定性得到较大的提高。     

溶胶-凝胶法制备SiO2/SiO2-TiO2双层防雾增透膜

以本征机械性能良好的溶胶-凝胶酸催化SiO₂和TiO₂薄膜为基础, 设计并制备了具有高透过率和良好机械性能的λ/4-λ/4 SiO₂/SiO₂-TiO₂双层增透膜. 所得薄膜在中心波长处的峰值透过率达到99.9%, 与设计膜层的透过率曲线高度吻合. 经耐摩擦和黏附性测试后, 该双层增透膜峰值透过率基本保持不变, 硬度高达4H, 表明其具有良好的机械性能. 水表面接触角测试结果显示该双层增透膜具有超亲水性, 表现出良好的冷/热防雾效果.     

非λ/4-非λ/4 SiO_2/TiO_2双层增透膜的设计与制备

通过TFCalc膜层设计软件设计了非λ/4-非λ/4双层增透膜体系.与λ/4-λ/4双层增透膜体系相比,非λ/4-非λ/4双层增透膜体系中内外层薄膜的折射率仅需满足n_1≥n_2(n_s/n_0)~(1/2)(其中n_1、n_2、n_s、n_0分别为内层膜、外层膜、基片和空气的折射率),即可通过调节内外层薄膜的厚度实现特定波长处的100%透过,扩展了膜层材料的选择范围.以酸催化TiO_2薄膜和SiO_2薄膜分别作为内、外层膜层材料,采用溶胶-凝胶浸渍-提拉法依次将TiO_2溶胶和SiO_2溶胶沉积在K9玻璃基片表面,最终形成SiO_2/TiO_2双层增透膜.实验结果表明,该双层增透膜具有与TFCalc模拟透过率曲线相吻合的实测透过率曲线,在中心波长处峰值透过率可达99.9%.该双层增透膜经耐摩擦和黏附性测试后峰值透过率基本保持不变,说明该增透膜具有良好的机械性能.这种同时具备高透过率和强机械性能的增透膜在太阳能电池等领域具有较广阔的应用前景.     

溶胶-凝胶法制备开管毛细管柱的研究进展

介绍了溶胶-凝胶法制备开管毛细管柱的方法,分析了溶胶-凝胶法制备开管毛细管柱的影响因素和特点,总结了溶胶-凝胶技术在毛细管气相色谱柱、毛细管液相色谱柱、毛细管电泳柱及电色谱柱方面的应用进展。     

GdAlO_3:Er~(3+),Yb~(3+)荧光粉的制备与上转换发光性能

采用共沉淀、溶胶-凝胶和固相反应法制备了GdAlO3:Er3+,Yb3+荧光粉.借助X射线衍射、扫描电子显微镜、傅里叶变换红外光谱、N2-吸附、吸收光谱和荧光光谱等手段研究了不同方法制备的GdAlO3:Er3+,Yb3+荧光粉结构、形貌、表面基团和光吸收及上转换发光性能.结果表明:用共沉淀法比固相反应法和溶胶-凝胶法可以在更温和的条件下制得纯相GdAlO3:Er3+,Yb3+荧光粉,用共沉淀法和溶胶-凝胶法制备的GdAlO3:Er3+,Yb3+荧光粉颗粒都在纳米尺寸,溶胶-凝胶法制得的样品存在相对严重的颗粒团聚现象,而用固相反应法制备的荧光粉为微米级颗粒.GdAlO3:Er3+,Yb3+荧光粉在980 nm激发的上转换发射光谱包含波长为524和546 nm的绿光与659 nm的红光,且三种方法制备的样品绿光发射强度都显著高于红光.不同方法制备的荧光粉上转换发光强度和红光/绿光强度比相差较大,共沉淀法制备的样品上转换发光强度要显著高于固相法以及溶胶-凝胶法制备的样品,而溶胶-凝胶法制备的样品发光中红光/绿光相对强度比最高.红外光谱显示,不同方法制备的GdAlO3:Er3+,Yb3+荧光粉表面OH-、CO32-及CO2官能团含量不同,溶胶-凝胶法制备的样品要明显高些.基于红外光谱、不同Er3+和Yb3+离子掺杂浓度及不同激光功率上转换发光的结果,对Er3+和Yb3+之间的能量传递过程及不同方法制备荧光粉的上转换发光性能进行了讨论.     

制备方法对CuO—Ce0．7Zr0．3O2催化剂的氧缺位和CO氧化活性的影响

采用溶胶-凝胶法和溶胶-凝胶 浸渍法两种方法制备了CuO-Ce0.7Zr0.3O2催化剂,并对催化剂进行了XRD、Raman等表征,考察了催化剂的CO氧化性能.研究结果表明,溶胶-凝胶法制备的CuO-Ce0.7Zr0.3O2催化剂的CO氧化活性明显高于溶胶-凝胶 浸渍法制备的CuO/Ce0.7Zr0.3O2催化剂,CuO-Ce0.7Zr0.3O2催化剂容易形成氧缺位和表面高分散CuO的颗粒较大,从而提高催化活性.     

溶胶-凝胶法设计与制备金属及合金纳米材料的研究进展

溶胶-凝胶法是常见的制备金属氧化物的方法之一。在溶胶-凝胶法中,各种反应物能达到分子级的均匀混合,因此能制备成份复杂的氧化物材料。目前,溶胶-凝胶法也应用于设计与制备金属纳米材料,特别是合金纳米颗粒。例如,溶胶-凝胶法能应用于制备CoPt、FePt等磁性纳米合金材料以及CoCrCuNiAl高熵合金纳米材料,以及物相结构为有序相的Cu3Pt合金纳米材料。本文综述溶胶-凝胶法设计制备金属纳米材料的研究进展,包括溶胶-凝胶法实施的基本步骤、该方法在制备金属纳米材料方面的具体应用,并着重论述采用热力学计算设计金属及化合物的基本原理。该基本原理包括计算金属氧化物与还原性气体如氢气的还原反应的吉布斯自由能的变化量、金属氧化物的标准电极电位(不同于金属离子的标准电极电位)。最后探讨溶胶-凝胶法设计制备金属纳米材料存在的问题以及后续可能的发展方向。     

碘酸改性溶胶凝胶法制备CuO/CeO2催化剂及富氢条件下催化CO氧化

采用一种碘酸改性的柠檬酸溶胶-凝胶法制备了CuO/CeO₂催化剂, 研究其在富氢气氛中CO优先氧化反应(CO-PROX)的催化活性. 与传统柠檬酸溶胶-凝胶法制备的催化剂相比, 碘酸改性溶胶-凝胶法制备的催化剂活性更好. 程序升温还原、 X射线衍射、 透射电子显微镜和X射线光电子能谱等表征证明该催化剂粒径较小, 表面含有更多的Ce³⁺及还原性氧化铜物种, 有利于提高催化剂的催化活性.     

制备方法对H2SO4固体酸结构和催化性能的影响

 以溶胶-凝胶法和浸渍法制备了H2SO4固体酸催化剂. FT-IR, XRD和 29Si MAS NMR结果表明,两种方法得到的催化剂结构不同. FT-IR和 29Si MAS NMR结果表明,溶胶-凝胶法制备的固体酸H2SO4-SiO2中H2SO4和载体SiO2间存在相互作用; 1H MAS NMR结果表明,H2SO4-SiO2固体酸的酸强度和液体浓硫酸相当. 通过对柠檬酸与正丁醇的液/固相催化酯化反应比较了溶胶-凝胶法与浸渍法制备的固体酸的催化性能,结果表明,浸渍法得到的固体酸重复使用4次后活性消失; 溶胶-凝胶法制备的H2SO4-SiO2固体酸重复使用6次后仍显示出较高的活性和选择性.     

溶胶-凝胶法修饰的一次性氯离子选择性电极的研究

溶胶-凝胶法(sol-gel)对固定试剂的种类和数量具有可调性,又具有保持性能稳定的潜在优势;一些小分子离子可以自由进出sol-gel的孔径,使得sol-gel基质内外浓度相等,因而可制备化学电极。本文通过正硅酸乙酯[TEOS]在适宜的酸催化下,水解制得电极材料,采用溶胶．凝胶掺杂技术,成功地修饰了新型氯离子选择性电极,这种电极的线性范围和AgCl-AgS2固态膜电极、     

Low Temperature Preparation of High Refractive Index and Mechanically Resistant Sol-gel TiO2 Films for Multilayer Antireflective Coating Applications

TiO₂ sol-gel thin films have attracted a large attention for applications which require high refractive index transparent layers. In this work, sol-gel TiO₂ layers were prepared by Aerosol-gel deposition followed by a thermal treatment procedure in air. Depending on the experimental conditions, abrasion resistant and high refractive index layers could be obtained after post-treatment at only 110°C. In this paper, the experimental parameters which allow the preparation of functional TiO₂ sol-gel layers at such low temperature are discussed. It is concluded that the preparation of high refractive index and mechanically resistant TiO₂ layers can be interpreted in terms of competition between polycondensation and densification mechanisms. This result allows to envisage the sol-gel processing at low temperature of multilayer antireflective coatings.     

Damage-resistant sol-gel optical coatings for advanced lasers at CEL-V

The research and development program at CEA Limeil-Valenton (CEL-V) concerning the mature technology of Nd:glass high power laser to Inertial Confinement Fusion (ICF) experiments has urged us to investigate and develop highly laser damage resistant optical coatings. Among the various existing deposition techniques, we have considered, the so-called sol-gel one has revealed very attractive technical and economical features. The chemical method we have explored is quite innovative since it allows making optical thin-films with a low-temperature route, using essentially oxide-based colloidal suspensions. Up to date, we have been able to prepare onto vitreous or plastic or even crystalline substrates antireflective or highly reflective dielectric coatings that can withstand the very high fluences that should deliver the future energy-efficient lasers in the megajoule range. Depending the need, such coatings could be narrow or broadband, abrasion-resistant or also environmentally durable.The aim of this paper is to show how the sol-gel process we are currently validating at CEL-V might serve tomorrow projects such as the harnessing of fusion energy, the greatest technological challenge facing humanity, but also household article uses.     

不同厚度三倍频SiO2增透膜的设计、制备与改性

本文通过光学计算设计了具有不同厚度的三倍频增透膜。以氨水为催化剂、正硅酸乙酯(TEOS)为前驱体,通过溶胶-凝胶(Sol-Gel)技术制得SiO2溶胶;采用浸渍提拉法镀膜得到符合设计要求的三倍频增透膜。研究结果表明,增透膜的耐磨擦性能随着膜层厚度的增大而增大,本文制得的厚度达到200 nm以上的三倍频增透膜耐磨擦性能显著优于传统的1/4波长三倍频增透膜。此外,本文以甲基含氢硅油为膜表面修饰剂,提出一种全新的超快的表面疏水性改性的方法。经该方法处理后,增透膜由亲水膜转变为疏水膜,对水的接触角从23.4°增大至95°,增透膜的耐环境性显著提高。     

疏水性对溶胶-凝胶SiO2薄膜抗真空污染及抗激光损伤能力的影响

以正硅酸乙酯作为前驱体,利用碱催化方式制备了SiO2溶胶,通过在溶胶中添加含疏水基团(-CH3)的六甲基二硅氮烷(HMDS)对溶胶进行改性,使用添加不同物质的量比HMDS改性后的溶胶用提拉法在K9基片上镀膜,获得了具有疏水性能的SiO2薄膜。采用自制接触角测量仪、紫外-可见-近红外分光光度计研究了薄膜的水接触角和透过率。测试了薄膜的激光损伤阈值,并观察了激光辐照后薄膜的损伤形貌。通过真空污染实验对薄膜的抗污染能力及抗激光损伤能力进行了研究。实验结果表明:经疏水改性的溶胶所镀制的薄膜激光损伤阈值由未改性样品的24.3 J·cm-2增加到37 J·cm-2(1 064 nm,10 ns),且抗真空污染能力大大加强:在真空环境下保存168 h后,未改性样品的峰值透过率下降了2%,而疏水改性后的样品峰值透过率仅下降了0.25%,并保持了较高的激光损伤阈值(30.8 J·cm-2)。     

疏水性对溶胶-凝胶SiO2薄膜抗真空污染及抗激光损伤能力的影响

以正硅酸乙酯作为前驱体, 利用碱催化方式制备了SiO₂溶胶, 通过在溶胶中添加含疏水基团(-CH₃)的六甲基二硅氮烷(HMDS)对溶胶进行改性, 使用添加不同物质的量比HMDS改性后的溶胶用提拉法在K9基片上镀膜, 获得了具有疏水性能的SiO₂薄膜。采用自制接触角测量仪、紫外-可见-近红外分光光度计研究了薄膜的水接触角和透过率。测试了薄膜的激光损伤阈值, 并观察了激光辐照后薄膜的损伤形貌。通过真空污染实验对薄膜的抗污染能力及抗激光损伤能力进行了研究。实验结果表明:经疏水改性的溶胶所镀制的薄膜激光损伤阈值由未改性样品的24.3 J·cm^-2增加到37 J·cm^-2(1 064 nm, 10 ns), 且抗真空污染能力大大加强:在真空环境下保存168 h后, 未改性样品的峰值透过率下降了2%, 而疏水改性后的样品峰值透过率仅下降了0.25%, 并保持了较高的激光损伤阈值(30.8 J·cm^-2)。     

耐环境性SiO2/SiO2-TiO2 增透膜的设计与制备

根据膜层设计理论设计出以K9玻璃为基体的耐环境性的双层增透膜, 这种增透膜在特定波长处具有超高的透过率. 以盐酸为催化剂, 分别以正硅酸乙酯和钛酸丁酯为前驱体制备了SiO2和TiO2溶胶, 将SiO2和TiO2溶胶按一定比例混合得到SiO2-TiO2复合溶胶. 通过改变复合溶胶中SiO2的含量调节复合膜的折射率, 通过改变提拉速度控制薄膜的厚度. 实验结果表明, 双层增透膜在550 nm处的透过率达到99.9%. 增透膜经较强机械摩擦后峰值透过率基本保持不变, 表明该增透膜具有优良的耐摩擦性. 进一步采用六甲基二硅氮烷对增透膜表面进行修饰, 修饰后增透膜的接触角增大至98.3°, 增透膜的疏水性及环境稳定性得到较大提高.     

Vacuum coating of plastic optics

Vacuum technologies for the deposition of optical interference coatings on polymer substrates, based on long-term experience in glass coating, have been under development for about 20 years. A growing market for precision optical elements and consumer optics moulded from thermoplastic polymers requires antireflective properties and hard coatings. Owing to the manifold chemical and physical properties of optical polymers, special efforts are essential for each type of plastic to find polymer-capable coating conditions. The main focus of this article is on evaluating the state of the art in vacuum-coating processes applied to plastics today, and on discussing specific coating techniques and evaluation procedures. A better understanding of the complex interactions between low-pressure plasmas and the various polymer materials will be a key factor in making durable plastic optics for future applications; achieving this will be a challenge to surface scientists.     

Preparation of a Sol-Gel Broadband Antireflective and Scratch-Resistant Coating for Amplifier Blastshields of the French Laser LIL

A broadband antireflective and scratch resistant coating made from tantalum and silicon oxide-based layers has been developed using the sol-gel route for amplifier blastshields of the french laser LIL. Sol-gel synthesis have been carried out starting from cheap precursors in order to produce metallic-based solutions, each one suitable for liquid-deposition technique use such as dip-coating. Baking step temperature does not exceed 150°C during 30 minutes allowing to coat various substrates and to offer scratch-resistance properties in compliance with US-MIL-C-0675C severe test. The antireflective properties of the coating (layer thickness) were optimized to maximize the amplification yield (in comparaison to uncoated blastshield), taking into account the optical and geometrical parameters of the multipass amplification laser cavity. Experimental antireflective coating deposition process onto large-area glass plates sized to the LIL amplifier blastshields (1811 × 635 × 6 mm) is described.     

MgF2 Xerogels

MgF₂ protective and antireflective coatings have been conventionally produced by sputtering or chemical vapour deposition CVD [1, 2], but here sol-gel routes to MgF₂ are explored. MgF_2(M) and MgF_2(E) were prepared using an alkoxide:HF:ROH mole ratio of 1:2:200 with methanol and ethanol respectively. All sols were stable for over a year. X-ray diffraction confirmed the presence of MgF₂ in samples (but also traces of MgO), and X-ray photoelectron spectroscopy suggested some F deficiency in the surface. Nevertheless, the MgF₂ xerogels had surface areas and porosities that were very high and this may be used to advantage in coatings or sensors.     

Application of functional coatings by sol-gel method

Nippon Sheet Glass Co. has developed many sol-gel derived products during the last decade. In this paper, the history of the production development, the details of the products and the production process for automotive windows using sol-gel thin-film coatings are introduced. These sol-gel thin-film coatings include UV absorbing, hydrophobic, low reflective and solar control coatings.