新型复合电极对偶氮染料分子的光催化降解

介绍了具有合成H2 O2 和光催化性能的双功能新型复合电极 ,并用X射线衍射、扫描电镜等方法进行了表征 .双功能复合电极是将TiO2 光催化剂负载在活性碳 (AC)和具有合成H2 O2 性能的新型载体空气电极上形成的 .在复合电极作阴极的光反应器中 ,·OH和TiO2 光催化剂的存在实现了光化学氧化与光催化氧化在同一电极 /溶液界面上的联合作用 .实验结果表明 ,复合电极对提高偶氮染料分子活性艳红 (K 2BP)的氧化降解速度起了重要作用 ,仅反应 3min ,脱色率可达 4 9% ;反应 80min ,偶氮染料分子COD去除率可达 4 7% .     

Ag-TiO_2/KIT-6复合纳米光催化剂的研究

以有序介孔SiO2(简称KIT-6)为载体,采用钛酸丁酯水解法将纳米TiO2与KIT-6复合,并通过沉积沉淀法将纳米Ag粒子负载于其上,首次制得Ag-TiO2/KIT-6复合光催化剂,并采用相同的方法制备了一系列相关的催化剂.以光催化降解甲基橙来评价其催化性能,光催化活性顺序为Ag-TiO2/KIT-6＞Ag/TiO2＞TiO2/KIT-6＞TiO2＞Ag/KIT-6.利用XRD、N2物理吸附、XPS、UV-Vis DRS和TEM对系列催化剂进行表征,结果表明Ag-TiO2之间形成的异质结和催化剂的大比表面积是Ag-TiO2/KIT-6具有最高光催化活性的重要原因.其中Ag-TiO2之间的异质结结构,有效抑制了光生电子和光生空穴在TiO2表面和体相内部的复合,提高了光催化活性;此外Ag-TiO2/KIT-6的大比表面积大大提高了催化剂的吸附能力,增加了催化剂与污染物的接触,达到快速光催化降解污染物的目的.     

纳米复合材料TiO2-ZrO2光催化降解可溶性染料的研究

采用溶胶-凝胶方法将光催化剂TiO2和ZrO2复合,再经700℃灼烧5h后获得了纳米复合光催化材料TiO2-ZrO2.该材料经XRD检测具有光催化活性良好的晶型结构.TEM测定结果显示产物的平均粒径约为20nm.通过对可溶性染料刚果红等的光催化降解实验证明,该复合材料具有较高的光催化活性.     

Ag-TiO2和Au-TiO2复合薄膜光催化降解偶氮染料酸性大红GR的研究

以玻璃珠为载体,溶胶-凝胶法制Ag-TiO2和Au-TiO2复合薄膜,研究了水溶液中的偶氮染料酸性大红GR进行了固定相光催化氧化以及银和金的掺杂量、染料水溶液的pH值、光源、催化剂的重复使用性等因素的影响.负载型复合光催化剂Ag-TiO2和Au-TiO2的光催化活性显著提高.当Ag和Au掺杂TiO2的质量分数分别为0.4%和0.6%时,最高光解率分别提高了2.1倍和1.8倍.     

Ag负载WO3/TiO2光催化剂的合成及其催化性能

以钛酸丁酯、无水乙醇、钨酸铵为原料,采用溶胶-凝胶法合成了WO3/TiO2复合光催化剂;采用光还原技术制备了Ag负载WO3/TiO2光催化剂,借助X射线粉末衍射(XRD)和UV-Vis光谱等技术对样品的组成和光吸收性能进行了表征,并以罗丹明B为模型污染物考察样品的光催化活性。XRD分析表明,所得粉体均为锐钛矿型纳米TiO2,且与WO3复合后,纳米TiO2特征衍射峰宽化,强度降低;UV-Vis光谱分析表明,载银使得催化剂在400—700nm的可见光区域对光响应,且在紫外光区吸收显著增强,对光具有更高的利用率;以罗丹明B为降解物的光催化实验表明,WO3复合对纳米TiO2光催化活性有显著的影响,而载Ag后其光催化活性进一步提高,将该光催化剂用于炼油厂废水的处理,效果较好。     

Cu-Fe-TiO2/膨润土复合光催化剂的表征及性能

以膨润土为载体,用溶胶-凝胶法制备了不同焙烧温度的Cu-Fe双金属掺杂的TiO2/膨润土复合光催化剂,采用XRD、TG-DSC和N2吸附技术对其结构进行了表征,通过光催化降解直接天蓝染料废水,考察了焙烧温度对催化剂光催化性能的影响.结果表明,当焙烧温度高于300℃时,催化剂中出现了锐钛矿型TiO2,掺杂的Cu2+、Fe3+可能进入了TiO2晶格取代了部分Ti4+,使其晶格产生了一定程度的畸变,形成了复合半导体,拓宽了TiO2的光谱响应范围,并且Cu2+、Fe3+掺杂的TiO2复合半导体进入了蒙脱石层间,与膨润土成功复合,增大了催化剂的比表面积并改善了催化剂的孔体积,提高了光催化剂活性和再生性.     

不同干燥法制备纳米TiO2光催化剂的光谱研究

本文分别用常态、超临界乙醇和超临界CO2干燥法干燥钛酸正丁酯的醇凝胶，制备纳米TiO2光催化剂。应用XRD，FTIR，FT－Raman和Fluorescent spectrum(FS)等光谱技术对催化剂进行了表征。以光催化降解罗丹明B为模型反应，比较所得样品光催化活性。实验结果表明，不同干燥方法对催化剂的晶相结构、半导体能带结构、光吸收性能、表面性质及光催化活性均产生显著的影响，用超临界CO2干燥法制备的TiO2光催化剂具有较好的光催化活性。     

Pt／TiO2粉末的结构和性能

TiO2半导体光催化技术是一种新型的环境污染物净化技术。传统的TiO2光催化剂太阳能利用率和光量子利用率低，限制了光催化技术的工业化应用。因此缩短催化剂的禁带宽度使吸收光谱向可见光谱扩展和抑制TiO2光生电子与空穴的复合是提高太阳能利用率的技术关键。掺杂可在半导体表面引入缺陷位置或改变结晶度，影响电子与空穴的复合或拓展光的吸收波段，从而影响TiO2的光催化活性。由于金属元素掺杂TiO2的催化活性强烈地依赖于TiO2的价态、结构以及金属元素与TiO2之间的细微作用，文中采用溶胶凝胶法制备纳米Pt/TiO2粉末，     

CdS改性TiO2光催化剂的制备及结构

在半导体光催化剂中，TiO2具有光催化活性高、无毒和抗光腐蚀性好等优点，但纯TiO2光催化剂直接利用太阳光进行光催化氧化的效率较低，而利用贵金属元素和稀土元素等在TiO2中进行掺杂改性时，改性光催化反应必须在高压汞灯或紫外灯下进行，不符合节能原则。     

RuO2/TiO2/漂珠复合光催化剂的制备及性能

"利用RuO2/TiO2前驱体溶胶,采用溶胶-凝胶-浸渍法在漂珠(FP)表面沉积RuO2/TiO2膜,经120 ℃干燥、500 ℃焙烧制备复合光催化剂RuO2/TiO2/FP,并通过SEM、XRD以及FT-IR分别对其结构进行了表征． 结果表明,RuO2/TiO2膜的平均厚度(三层)约1 1m,膜材料中TiO2主要呈现锐钛矿型结构,而RuO2是以非晶态高度分散在粒子表面．以高效氯氰菊酯杀虫剂的光催化降解为模型反应,研究了RuO2/TiO2/FP的光催化性能,探讨了影响催化剂活性的因素及采用太阳光做光源处理     

有机膨润土负载ZnO/TiO2光降解催化剂的研制及性能

以六水硝酸锌、酞酸丁酯和有机膨润土为原料,采用沉淀法制备ZnO/TiO2膨润土复合光催化材料,用IR和XRD对光催化剂的组织构造和微观结构进行表征,实验了光催化剂对亚甲基蓝废水的降解性能。结果表明：ZnO/TiO2成功负载于膨润土片层表面,ZnO的含量为有机膨润土的8%,反应温度为70℃,焙烧温度为420℃,催化剂用量为12mg/L时,亚甲基蓝废水的降解率可达97%以上。     

金属离子对纳米TiO2悬浊液的光催化性能影响的光谱研究

以钛氧有机物为前驱体,利用微乳液法制备了纳米TiO2微晶。用X射线衍射(XRD)和红外光谱(FTIR)等测试技术对产物进行了表征,并就纳米TiO2悬浊液中加入金属离子后光催化降解甲基橙溶液进行了初步的研究。光谱分析表明,纳米TiO2悬浊液中加入Bi3 离子后对甲基橙溶液的光催化降解有很大的促进作用,Bi3 与TiO2质量比为1∶8及TiO2的浓度为1.6g·L-1时光催化活性最佳。     

Characterization and photocatalytic activity of Zn–TiO2/AC composite photocatalyst

Activated carbon (AC) supported Zn²⁺–TiO₂ photocatalyst was prepared by sol–gel method. The prepared samples were characterized by X-ray diffraction, scanning electron micrograph, nitrogen absorption, diffuse reflectance UV/VIS and X-ray photoelectron spectroscopy. Using toluene as a pollution target, the photocatalytic activity of photocatalyst was evaluated. The results showed that prepared photocatalyst was obviously helpful for the removal of toluene in air. The photocatalytic degradation of toluene by Zn²⁺–TiO₂/AC reached 100% for 40 min and remained 75% after 160 min, while degradation by TiO₂ was only 30%. It indicated that the photocatalytic activity of prepared photocatalyst was enhanced. It is due to Zn²⁺-doping increased the oxidation and reduction of hole–electron pairs, which was the important factor in heterogeneous photocatalysis.     

阳极氧化制备TiO_2纳米管及总磷的光电催化消解（英文）北大核心CSCD

总磷是检测水体富营养化的重要指标,因此研究其消解具有重要的意义。总磷的消解方法有很多,例如传统的高温消解、微波消解、紫外消解、电催化消解、光催化消解等,但是既高效又简易洁净的消解方法仍在不断的研究中。研究了一种基于光电催化的总磷的消解方法,通过在二氧化钛工作电极和对电极之间外加适当的电压来减少电子-空穴对的复合。介绍了用于总磷的光电催化消解中的光催化剂的二氧化钛纳米管的阳极氧化法制备、特性表征及其用于总磷的光电催化消解。阳极氧化法制备的二氧化钛纳米管具有较好的催化活性。将其用于总磷的光电催化消解实验,当2V电压协助光催化消解2h后,消解率达到65.4%,较光催化高了20.7%,较电催化高了61.3%。实验结果表明,与光催化消解、电催化消解方法相比,通过在工作电极和对电极之间添加适当的外加电压的光电催化消解方法可以有效地提高总磷的消解率。     

A novel approach towards high-performance composite photocatalyst of TiO2 deposited on activated carbon

TiO₂ photocatalysts deposited on activated carbon (TiO₂/AC) were prepared by dip-hydrothermal method at 180 °C using peroxotitanate as a precursor, then calcinated at 300-800 °C. The samples were characterized by X-ray diffraction, scanning electron microscopy, Raman spectroscopy and the nitrogen absorption. Their photocatalytic activity was evaluated by degradation of methyl orange (MO). The results showed that TiO₂ particles of anatase type were well deposited on the activated carbon surface. TiO₂/AC calcinated at 600 °C exhibited the best photocatalytic performance. For the comparison, the same photocatalysis experiment was carried out for two mixtures of commercial TiO₂ (Degussa P25) with AC and synthetic TiO₂ with AC. It was found that the composite catalyst TiO₂/AC was better than the two mixtures. Besides, different from fine powdered TiO₂, the granular TiO₂/AC photocatalysts could be easily separated from the bulk solution and reused; indeed, its photocatalytic ability was hardly decreased after a five-cycle for MO degradation. The kinetics of the MO degradation fitted well the Langmuir-Hinshelwood model.     

Photocatalytic oxidation of natural organic adsorbates on anatase TiO2 films observed by infrared adsorption spectroscopy with a multiple internal reflection geometry

Photocatalytic oxidation of organic adsorbates on anatase TiO₂ films has been examined in different atmospheres of humid air, dry air and vacuum. The photocatalytic oxidation was observed by IR absorption spectroscopy (IRAS) with a multiple-internal-reflection (MIR) geometry. The photocatalytic oxidation is the fastest in the air at a humidity of 70% where oxygen and water vapor are consuming to produce OH radicals and O₂⁻ anions on the TiO₂ surface with the UV exposure. In the dry air, a rate of the photocatalytic oxidation is almost 30% of that in the humid air, where only O₂⁻ anions oxidize the organic adsorbates. In vacuum, on the other hand, it is negligible, which suggests that adsorbed H₂O molecules do not play an important role in the photocatalytic reaction. It is suggested that an addition of the water vapor is necessary to achieve the higher catalytic activity.     

Ultrasonic effects on electroorganic processes--Part 20. Photocatalytic oxidation of aliphatic alcohols in aqueous suspension of TiO2 powder

Ultrasonic effects in a suspension system were examined using the photocatalytic oxidation of 2-propanol to acetone and of ethanol to acetaldehyde in the aqueous suspension of TiO2 powder as a model reaction. The formation rate of acetone was significantly increased under ultrasonic irradiation. The oxidation reaction under ultrasonic irradiation was affected in a different manner from that in silence by reaction conditions such as ultrasonic power, stirring speed, amount of TiO2, concentration of 2-propanol, and pretreatment of the TiO2 powder. Furthermore, it was also observed that the particle size of the TiO2 photocatalyst powder was increased due to the particle agglomeration by ultrasonic irradiation, and consequently it was suggested that ultrasound activates the surface of the catalyst. These results are discussed on the basis of not only the activation of the photocatalyst but also ultrasonic enhancement of mass transport of 2-propanol molecules.     

Immobilization of noble metal nanoparticles on the surface of TiO2 by the sonochemical method: photocatalytic production of hydrogen from an aqueous solution of ethanol

Sonochemically prepared Pt, Au and Pd nanoparticles were successfully immobilized onto TiO2 with the assistance of prolonged sonication. Their photocatalytic activities were evaluated in H2 production from aqueous ethanol solutions. Beside the sonochemical method, the conventional impregnation method was also employed to prepare photocatalysts. The sonochemically prepared catalysts showed higher activities than did the conventional ones. Their photocatalytic activities depended on the work functions and the dimensions of supported noble metal nanoparticles. Smaller Pt nanoparticles effectively restricted recombination of electrons and holes and provided H2 at a higher rate.