电化学法制备高热稳定性锐钛矿型纳米TiO2

以醇中加入少量有机腕导电盐作为电解液,以工业纯钛作“牺牲”阳性,控电流电解,可分别得到乙醇钛、异丙醇钛、正丁醇然等的相应醇溶液。然后直接水解,经溶胶－凝胶（Ｓｏｌ－ｇｅｌ）过程,形成凝胶前体,在４５０℃,７２０℃煅烧３０ｍｉｎ后,均得到高热稳定锐钛矿型（ａｎａｔａｓｅ）纳米ＴｉＯ２（１０ｎｍ左右）。通过ＦＴＩＲ,ＸＲＤ,ＴＥＭ等测试手段,对钛醇盐和纳米ＴｉＯ２进行了表征。本文同时讨论了不同钛醇盐制     

BPA对低温制备锐钛矿型TiO2薄膜表面形貌的控制

采用4,4’-二羟基二苯基丙烷(BPA)作为TiO2薄膜表面形貌控制的模板剂. 将BPA的乙醇溶液与具有锐钛矿晶粒的TiO2溶胶均匀混合制得涂膜液, 采用浸渍提拉法制备薄膜; 用无水乙醇将薄膜中的BPA选择性溶解去除, 实现了低温下锐钛矿型TiO2薄膜的制备及其表面形貌的调控. 采用SEM考察了TiO2溶胶用量、BPA用量、以及无水乙醇用量等因素对TiO2薄膜表面形貌的影响, 并对其控制机理进行了探讨. 结果表明, 涂膜液的组成会影响到湿膜烘干过程中粒子的迁移和聚集, 从而改变TiO2与BPA 在薄膜表面的分布状态, 最终对TiO2薄膜的表面形貌产生影响. 随BPA浓度的降低,其影响逐渐由薄膜内部转向薄膜的表面区域. 而低TiO2胶粒浓度和高乙醇含量则有利于TiO2薄膜产生粗糙的形貌或多孔性的结构.     

尿素作为添加剂低温制备高活性的TiO2光催化剂

以钛酸丁酯为原料,尿素作为添加剂,在酸性水溶液中室温制备了稳定透明的TiO2水溶胶。经过300℃低温焙烧2 h,得到了由锐钛矿和金红石组成的TiO2混晶。用XRD、FT-IR对催化剂进行了表征。以甲基橙为降解对象研究了TiO2的光催化活性,实验结果显示所制备的TiO2具有比Degussa P25更高的催化活性,15m in后的降解率达到了78%(P25,58%)。考察了尿素添加量以及焙烧温度对TiO2催化性能的影响,当尿素与钛酸丁酯物质的量之比为3∶1,300℃下焙烧2 h为较适宜的催化剂制备条件。初步探讨了尿素作为添加剂在低温制备高活性TiO2过程中的作用。     

方形锐钛矿TiO2纳米晶的合成及表征

在不添加任何模板剂或形状控制剂的条件下,以TiCl₄为前体,经氨水沉淀、乙醇洗涤和超临界干燥(AS制备法)选择性地合成了方形锐钛矿TiO₂纳米单晶.热稳定性研究结果表明,当焙烧温度不超过650℃时,方形锐钛矿TiO₂纳米晶的表面积、孔容、晶粒/颗粒尺寸基本保持不变.XRD和拉曼光谱分析表明,方形锐钛矿TiO₂纳米晶在800℃下焙烧后仍能保持晶相不变,表现出很强的抗晶相转变能力.但在1000℃焙烧后,样品可以完全转变成金红石相TiO₂.     

锐钛矿型纳米氧化钛及其复合材料的低温制备技术

探索低温合成高催化活性纳米TiO2及其复合材料的有效方法,突破传统的高温煅烧法制备锐钛矿相纳米TiO2光催化剂带来的局限,已成为该领域研究的热点问题。本文综述了近年来低温合成锐钛矿型纳米TiO2光催化剂的研究进展,讨论了目前所报道的各种方法（胶溶－相转移法、衍生溶胶－凝胶法、水热法、超声水解法、微波照射法、微乳液法和低温直接氧化法）的原理、操作步骤、反应进程以及优缺点。针对纳米TiO2晶体用作光催化剂时固有的缺陷,即量子效率低且无法利用可见光,进一步评述了离子掺杂、贵金属沉积以及半导体复合等纳米TiO2复合材料的低温制备技术,展望了该领域今后的发展方向和研究重点。     

用高温热水解法制备高活性TiO2纳米微晶光催化剂

采用钛酸四西酯在有机溶剂中高温热水解与结晶同时进行的方法，制备了二氧化钛纳米微晶光催化剂．以XRD、BET、TEM、TG和DTA等方法对获得的微晶进行了表征．所制得的TiO2纳米微晶平均值径约为12nm，比表面积在100m2·g-1以上，并能在报宽的煅烧温度范围内保持锐钛矿型晶体结构．将它应用于光分解甲基橙，具有高的光催化活性．     

超声波作用下的钛醇盐水解法制备纳米TiO2

近十几年来, 有关二氧化钛光催化性能的研究已引起人们的浓厚兴趣, 在此方面进行了大量研究. 目前, 纳米二氧化钛的制备方法主要有化学沉淀法、溶胶-凝胶法、气相法和水热法等[1,2]. 超声化学是近年来新兴的一门边缘交叉学科, 已被应用于制备具有特殊结构和性能的纳米材料, 如金属[3]、碳化物[4]、氮化物[5]、氧化物[6]、合金[7]以及生物材料[8]等, 但对于超声作用在纳米粒子晶型转变方面的研究报道较少.     

锐钛矿型纳米TiO2粉体的精细结构及其光催化降解苯酚的活性

  摘要：以Ti（SO4）2·4H2O和尿素为原料，以聚乙二醇－1000为空间构 造剂，制备了不同粒径的具有高热稳定性的锐钛矿型纳米TiO2粉体，并 用XRD，BET和EXAFS技术对其晶相、粒径大小、比表面积及中心Ti原子 的K－边精细结构进行了表征，对其光催化降解苯酚反应的活性进行了 考察．结果表明，未经任何热处理的TiO2粉体即为锐钛矿型晶相，控制 焙烧温度可以达到控制其粒径及比表面积的目的．经850℃焙烧5h的样 品仍保持锐钛矿型晶相，未出现向金红石型晶相转变的迹象．随着纳米 TiO2晶粒的增大，Ti原子局域结构的有序度增强，边前结构A1，A2和A 3三个特征峰的强度增强，各壳层的配位数均呈增大的趋势．粒径处于 15～20nm的锐钛矿型TiO2粉体对光催化降解苯酚表现出较高的活性．     

光催化活性TiO2薄膜的低温制备

在低温下,将基材浸渍在含配合物,F－离子捕获剂H3BO3,及加有结晶诱导剂锐钛矿TiO2纳米晶的过饱和水溶液中,在基材上沉积锐钛矿型TiO2薄膜.研究了水溶液的浓度、反应物和H3BO3的摩尔比、沉积时间、反应温度等对沉积TiO2薄膜的结构和性能的影响.并用UV Vis、XRD和SEM等对TiO2薄膜的透明性、厚度、物相和形貌等进行了表征.用亚甲蓝的光催化降解,评价了TiO2薄膜的光催化活性.     

用于甲醇水溶液制氢的光催化剂纳米TiO2的改性进展

综述了用于甲醇水溶液制氢的光催化剂纳米TiO2的改性进展。参考文献34篇。     

非钛醇盐溶胶-凝胶法制备高光活性纳米晶TiO2气凝胶

 以TiCl4为前驱体,采用环氧丙烷快速成胶法合成了具有高光催化活性的纳米晶TiO2气凝胶,利用X射线衍射、N2物理吸附和透射电镜等手段考察了H2O/TiCl4摩尔比和热处理等制备参数对TiO2气凝胶织构性质的影响,并以苯酚的光催化降解为模型反应评价了样品的光催化活性. 结果表明, H2O/TiCl4摩尔比为3时体系的成胶过程较为缓慢,制备的纳米晶TiO2气凝胶样品具有最小的晶粒尺寸及最大的比表面积和孔容,并且具有最佳的光催化活性.     

Low Temperature Sol-Gel Preparation of Nanocrystalline TiO2 Thin Films

TiO₂ nanocrystalline thin films with varying degree of porosity have been prepared using a low temperature method. TiO₂ films of the anatase form have been obtained by using a polyethylene glycol (PEG) modified sol-gel method. Densification and crystallization of the films was found to result from the thermal treatment of the dip coated films in boiling water. The films have been characterized by Raman, XRD, FTIR, AFM and optical methods. Highly transparent films with transmission in excess of 85% and porosity as high as 58% are formed predominantly of anatase crystallites of dimensions of the order of 5 nm. Initial results on lithium intercalation into these films resulting in an efficient optical modulation in the visible and near infrared regions demonstrate a good potential of these films for electrochromic applications.     

Preparation of Anatase Hollow TiO2 Spheres and Their Photocatalytic Activity in the Photodegradation of Chlorpyrifos

Hollow anatase titania (TiO₂) spheres were synthesized using fructose and tetrabutyl titanate (Ti(OC₄H₉)₄, TBT) as the precursors via the conventional hard template method. The morphological, structural and thermal properties of the products were characterized using scanning electron microscopy (SEM), field emission scanning electron microscopy (FESEM), transmission electron microscopy (TEM), Fourier transform infrared (FTIR) spectroscopy, X‐ray diffraction (XRD), thermogravimetric and differential thermal analysis (TG‐DTA), Brunauer? Emmett? Teller (BET) surface area analysis and diffuse reflectance ultraviolet visible (DR UV? Vis) spectroscopy. XRD revealed that the hollow TiO₂ prepared was in the anatase phase and the BET surface area measured was about 22 m² g^?1. The photocatalytic activity of the synthesized hollow anatase TiO₂ in the photodecomposition of chlorpyrifos was 18.67 % higher than that obtained using commercial TiO₂.     

溶剂化金属原子浸渍法制备高分散Au/TiO2低温CO氧化催化剂

用溶剂化金属原子浸渍法制备了不同金含量的高分散Ａｕ／ＴｉＯ２催化剂,ＸＲＤ和ＴＥＭ测定结果表明,随着金含量的增加,金颗粒度增大,但直径都在１．８～３．５ｎｍ范围内,ＸＰＳ研究表明上于金属态,Ａｕ／ＴｉＯ２在低温下就显示出较高的ＣＯ知性,３２３Ｋ时ＣＯ的转化率可达到１００％,金颗粒度为１．８ｎｍ的Ａｕ／ＴｉＯ２催化剂活性最高。     

Photocatalytic and Photoelectronic Properties of Anatase TiO2 Modified by Cu Ions Plasma and Its Theoretic Study by the First Principle Study

<正>Highly ordered anatase titania nanotube arrays (TiNT) were fabricated by anodic oxidation. SEM analysis method was used to characterize the morphology of the prepared samples. TiNT samples doped with Cu ions were prepared by home-made Metal Vapor Vacuum Arc ions sources (MEVVA, BNU, China) implanter. Photo-electric response and methyl orange decomposition ability of implanted samples under UV and visible light were tested, and the results indicated that the performance of Cu/TiNT enhanced significantly under visible light; it was noteworthy that the photocurrent density of A-Cu/TiNT was 0.102 mA/cm~2, which was 115 times that of pure TiNT, and degradation ability of TiNT also strongly enhanced under visible light. In a word, the absorption spectrum of implanted anatase titania shifted to a longer wavelength region. Theoretic study on Cu-doped anatase based on density functional theory was carried out in this paper to validate the experiment results. The calculation results are depicted as follows: Intermittent energy band appeared around the Fermi energy after doping with Cu metal, the width of which was 0.35 eV and the location of valence and conduction bands shifted to the lower energy level by 0.22 eV; more excitation and jump routes were opened for the electrons. The narrowed band gaps allowed the photons with lower energy (at longer wavelength, such as visible light) to be absorbed, which accorded well with the experimental results.     

Surface Properties of Anatase TiO2 Nanowire Films Grown from a Fluoride‐Containing Solution

Controlling the surface chemistry of nucleating seeds during wet‐chemical synthesis allows for the preparation of morphologically well‐defined nanostructures. Synthesis conditions play a key role in the surface properties, which directly affect the functional properties of the material. Therefore, it is important to establish post‐synthesis treatments to facilitate the optimization of surface properties with respect to a specific application, without losing the morphological peculiarity of the nanostructure. We studied the surface properties of highly crystalline and porous anatase TiO₂ nanowire (NW) electrodes, grown by chemical‐bath deposition in fluoride‐containing solutions, using a combined electrochemical and spectroscopic approach. As‐deposited films showed low capacity for catechol adsorption and a poor photoelectrocatalytic activity for water oxidation. Mild thermal annealing at 200 °C resulted in a significant improvement of the electrode photoelectrocatalytic activity, whereas the bulk properties of the NWs (crystal structure, band‐gap energy) remained unchanged. Enhancement of the functional properties of the material is discussed on the basis of adsorption capacity and electronic properties. The temperature‐induced decrease of recombination centers, along with the concomitant increase of adsorption and reaction sites upon thermal annealing are called to be responsible for such improved performance.     

固体磺酸促进亚硝酸异戊酯催化氧化苯甲醇反应

 以亚硝酸异戊酯为催化剂, 通过固体磺酸的促进作用原位产生亚硝酰正离子, 实现了催化氧气氧化苯甲醇制备苯甲醛. 300 oC 处理的 Amberlyst 15 表现出较高的促进效果, 在 0.5 MPa O2, 80 oC 反应 2 h, 苯甲醇转化率和苯甲醛选择性可分别达到 90% 和 97%. 通过红外、热分析及酸碱滴定研究了不同方法制得的固体酸的差别及其对反应促进效果的影响, 并利用紫外-可见光谱和衍生化方法检测了亚硝酰正离子.     

Ti/SiO2催化H2O2氧化苯甲醇制苯甲醛反应机理的理论研究

采用密度泛函理论B3LYP方法研究了非贵金属Ti催化H2O2氧化苯甲醇为苯甲醛的反应机理.考察了6条可能的反应途径,优化得到了各个途径的过渡态和中间体结构,计算了气相和液相中的反应势垒.结果表明,无催化剂时,H2O2氧化苯甲醇的反应途径具有非常高的反应势垒,反应不能进行;以Ti/SiO2为催化剂时,标题反应在乙腈溶液中的反应势垒为123.8 kJ/mol,反应可在约353 K下发生.结果还表明,标题反应在极性较大的溶剂中有较高的反应势垒,而在气相或者极性较小的溶剂中的反应势垒较低.     

离子液体体系中氯化金属卟啉对苯甲醇的催化氧化反应

研究了一种将苯甲醇直接氧化成苯甲醛的催化体系:氯化金属卟啉/离子液体/氧化剂(MTPPCl/ILs/[O]),考察了该体系反应过程中温度、氯化金属卟啉、氧化剂、轴向配体和离子液体的种类等因素对反应收率的影响。结果表明,催化剂氯化锰卟啉、溶剂1-丁基-3-甲基咪唑硫酸氢盐离子液体、氧化剂过硫酸钾组成的催化体系MnTPPCl/[Bmim]HSO4/K2S2O8在苯甲醇直接催化氧化成苯甲醛的反应中表现出很好的活性(99%)和选择性(99%),且该体系避免了使用传统的有机溶剂,可重复多次使用。