H3PW12O40／CeO2光催化脱色甲基橙溶液的研究

以CeO2为载体,用浸渍法制备了不同负载量的磷钨酸催化剂,并且考察了催化剂光催化脱色甲基橙溶液的催化性能。结果表明:磷钨酸最佳负载量为9%(质量分数);光催化剂加入量为300mg/100mL;在较低浓度下,甲基橙溶液的光催化脱色反应符合一级动力学方程;H3PW12O40/CeO2与TiO2具有相同的催化性能;催化剂再生后活性可恢复至65%。     

SnO_2@PW_(12)的制备及对废水中亚甲基蓝的降解

采用简单浸渍法制备了SnO2@PW12催化材料,通过XRD和TEM对其结构进行了表征,研究了该催化材料对有机染料亚甲基蓝降解的催化活性。讨论了催化剂投加量、亚甲基蓝溶液的初始浓度、酸度等对催化降解效果的影响。结果表明,当溶液酸度为pH=4,催化剂用量为50mg/L,浓度为5mg/L亚甲基蓝溶液在30W的紫外灯下照射40min脱色率可达89.72%。SnO2@PW12光催化降解亚甲基蓝为一级动力学反应。     

纳米TiO2复合薄膜光催化降解甲基橙的研究

本文通过Sol-Gel工艺在载玻片表面、多孔陶瓷表面及玻璃纤维表面制得了均匀透明的纳米TiO₂复合薄膜,以甲基橙为研究对象,紫外灯为光源,研究了甲基橙初始浓度、光照时间、催化剂载体比表面、初始溶液的pH值对甲基橙降解率的影响,并比较了半导体耦合薄膜的光催化降解能力.研究结果表明:SnO₂-TiO₂复合膜相对于其它耦合膜及金属(La)掺杂膜有较高的降解率.     

Fe-Ni 共掺杂 ZnO 的制备及其光催化降解甲基橙活性

 采用溶液法制备了 Fe-Ni 共掺杂 ZnO 光催化剂, 并运用 X 射线衍射、扫描电镜和原子发射光谱等对催化剂进行了表征. 以甲基橙 (MO) 为模型污染物, 评价了样品的光催化活性, 考察了甲基橙初始浓度及其 pH 值, 以及催化剂用量等对光催化反应性能的影响. 结果表明, Fe-Ni 共掺杂降低了 ZnO 的结晶度, 并促进了晶粒的长大. 光催化降解反应表明, Fe-Ni 共掺杂显著提高了 ZnO 光催化降解甲基橙的活性, 当催化剂用量为 0.6 g/L, 经 120 min 紫外光照射时, 可使甲基橙溶液 (10 mg/L) 降解率达到 93.5%. 关键词：铁; 镍; 共掺杂; 氧化锌; 光催化; 甲基橙; 降解     

Ag-ZnO/凹凸棒石复合光催化剂的制备及性能研究

以凹凸棒石(ATP)为载体,二水合乙酸锌、硝酸银为原料,采用溶胶凝胶法结合超临界干燥技术制备了Ag-ZnO/ATP复合光催化剂。利用XRD、SEM、TEM、UV-Vis对复合光催化剂的结构进行表征,并通过降解亚甲基蓝溶液评估光催化活性。研究结果表明:该方法制得的Ag-ZnO/ATP复合光催化剂颗粒均匀,分散性良好,具有较高的光催化活性。Ag负载量为3wt%,煅烧温度为400℃时制备的复合光催化剂,在紫外灯下降解亚甲基蓝溶液3h后,降解率达98. 2%,COD去除率为96. 8%。制备的复合光催化剂稳定性良好,三次循环回收后,亚甲基蓝溶液的降解率达89. 7%。     

磷钨酸/SiO2负载化光催化剂的制备与表征

以溶胶–凝胶法合成的SiO2作载体,固载磷钨酸制得负载化磷钨酸光催化剂,用XRD、FT-IR、UV-Vis-DRS等方法表征了催化剂的理化性能。结果表明,所制备的负载化磷钨酸催化剂对甲基橙的光催化降解反应具有较好的催化性能。     

微波助离子液体中Y掺杂TiO_2光催化剂制备及微波强化光催化活性

在微波助离子液体介质中制备稀土元素Y掺杂改性TiO_2光催化剂,以提高催化剂的光催化降解活性,用XRD、SEM和BET等测试手段对催化剂结构进行表征;以甲基橙溶液和苯酚溶液为模拟污染物,分别在紫外光照(UV)和微波辐射-紫外光照(MW-UV)条件下考察TiO_2-Y催化剂的光催化活性;以对苯二甲酸作为荧光探针利用荧光技术检测TiO_2-Y催化剂表面所产生的羟基自由基,并对光催化降解反应进行动力学分析,探索了光催化降解反应机理.实验结果表明,通过优化反应条件后制得的TiO_2-Y催化剂具有较高光催化活性和热稳定性,在UV和UV-MW条件下降解甲基橙和苯酚溶液1.5h后,甲基橙降解率分别为98.3%和99.5%,苯酚降解率分别为97.5%和98.2%.荧光光谱分析表明,TiO_2-Y在MW-UV条件下产生的羟基自由基比UV条件下要多,因而微波辐照具有强化TiO_2-Y降解模拟污染物的作用;反应动力学数据分析表明,TiO_2-Y光催化降解甲基橙溶液反应呈现一级反应动力学规律,其表观速率常数K最大值为0.051 9min-1.     

碳纳米管/TiO_2复合材料的制备及表征研究

采用溶胶-凝胶法和水热合成法,制备出碳纳米管/TiO2(CNTs/TiO2)复合材料。通过X-射线衍射仪(XRD)、扫描电子显微镜(SEM),紫外-可见漫反射光谱(UV-Vis),荧光光谱(LS)检测CNTs/TiO2的晶型及形貌。结果表明:锐钛矿相TiO2纳米颗粒负载在碳纳米管的管壁上,CNTs/TiO2在紫外-可见光波长范围均有较好的吸收性能。在灭菌灯照射下,以甲基橙溶液为降解目标,CNTs/TiO2复合材料对甲基橙溶液的降解有高的光催化活性,180 min内降解率达到85%以上。     

光催化活性二氧化钛溶胶的低温制备与表征

以钛酸丁酯为原料,在70 ℃制备了具有光催化活性的TiO2溶胶.用X射线衍射仪(XRD)和透射电子显微镜(TEM)表征了溶胶结构;用紫外-可见分光光度计研究了TiO2溶胶对甲基橙的吸附和光催化降解性能.XRD图谱表明TiO2溶胶粒子的一次粒径约4 nm,晶型主要为锐钛矿型,并含有少量结晶不完善的板钛矿型;TEM图像表明溶胶中TiO2粒子分散良好,二次粒径约10 nm.吸附实验表明TiO2溶胶使甲基橙溶液褪色约17%;光催化实验表明TiO2溶胶光催化性能优异,自然光催化降解甲基橙溶液(10 mg/L),16min后甲基橙浓度几乎降为0.     

氧缺陷型SnO2纳米颗粒可见光催化性能的研究

由简单的水热法合成了一种可高效降解有机染料的氧缺陷型Sn O2纳米颗粒新型光催化剂,用X射线衍射、透射电镜、高分辨透射电镜和紫外-可见分光光度计等手段对其结构及性能进行了表征。结果表明,所制备的催化剂的禁带宽度最小可达2.90e V,可实现对可见光的有效吸收利用,对甲基橙的降解反应具有很高的光催化活性。将该催化剂(1g/L)分散在10mg/L的甲基橙溶液中,可见光照射下,40min内甲基橙的降解率达99%以上。由于该催化剂具有合成方法简单、高效、成本低和反应条件温和等特点,为有效解决有机染料对环境的污染问题提供了一条新的途径。     

聚苯胺/凹凸棒石负载纳米铁降解水溶液中甲基橙

以聚苯胺/凹凸棒石(PANI/ATP)为载体,采用液相还原法合成了负载型纳米零价铁(nZVI),用扫描电子显微镜(SEM)、透射电子显微镜(TEM)及X射线光电子能谱分析仪(XPS)等技术手段对纳米复合材料进行表征,考察了反应时间和pH值对甲基橙降解性能的影响,对降解过程进行了动力学分析,探讨了nZVI/PANI/ATP复合材料对甲基橙的降解机理。 结果表明,nZVI/PANI/ATP复合材料在较大pH值范围内能有效降解水中甲基橙并具有降解长效性,当催化剂用量1.0 g/L,降解体积50 mL,甲基橙的浓度20 mg/L,降解时间30 min时,复合材料对甲基橙的降解率达到95.8%以上,对甲基橙的降解过程符合准二级动力学模型。     

Preparation and photocatalytic activity of carbon dot/Ag/AgCl

CD (carbon dot)/Ag/AgCl compound photocatalysts with different compounding degrees were prepared via a precipitation method, and their physiochemical properties were characterized by X‐ray diffraction, FE‐SEM, UV–vis and the like. Through the degradation experiment of methyl orange (MO), the effects of different compounding amount and methyl orange concentration on photocatalytic degradation were investigated to find the best ratio. It was found the photocatalytic activity of CD/Ag/AgCl was significantly higher than Ag/AgCl, and the best compounding dosage was 6 mg/l carbon dot. The degradation rate of CD/Ag/AgCl was lower when the initial MO concentration was higher. Five repeated experiments were conducted to test the stability of the catalysts, and showed the MO degradation rates were all above 85%, indicating the CD/Ag/AgCl compound photocatalysts all showed high stability and repeatability. The reaction mechanism of CD/Ag/AgCl photocatalyst was studied by electrochemical experiments and ESR experiments. The results show that the doping of CD effectively improves the photocatalytic degradation ability of MO.     

铁锌柱撑膨润土催化剂的制备及其对甲基橙废水的光催化降解性能

采用微波辐照促进的溶胶浸渍法制备了铁锌柱撑膨润土催化剂;用制备的催化剂对甲基橙溶液在可见光照射下进行降解,探讨了铁负载量、H2O2质量浓度、溶液初始pH、反应时间和催化剂投加量对甲基橙降解率的影响,并考察了催化剂的重复利用性能.结果表明,在pH为3、H2O2质量浓度100mg/L、催化剂投加量1.5g/L、反应时间为2h条件下,甲基橙降解率可达97%.     

Synthesis of TiO2 thin film by a modified sol-gel method and properties of the prepared films for photocatalyst

PTA (peroxo titanic acid) gel was prepared by a modified sol-gel method from peroxo titanic acid using TiCl₄/ethanol/water solution as the starting material at room temperature. Physicochemical properties of heat-treated gel were characterized by IR, XRD, TG-DTA and SEM. Optimal preparing conditions were chosen to prepare anatase film for the photocatalytic degradation of methyl orange. The dip-coating technique was used to synthesis the supported anatase film on quartz glass. Photocatalytic efficiency for the degradation of methyl orange under UV irradiation was also examined. It was found that the degradation efficiency of the anatase film synthesized in this paper is higher than commercial titania P25.     

Synthesis of Nano‐Sized Zinc Oxide Photocatalyst by Combustion Method

The objective of this research was to use combustion synthesis to create a nano‐sized ZnO photocatalyst using citric acid as the fuel and zinc nitrate as the oxidant. The starting materials were mixed in a stoichiometric ratio, and a slurry precursor with high homogeneity was formed. The precursor was ignited at room temperature, resulting in dry, loose, and voluminous ZnO powders. The powders, characterized by SEM, TEM and XRD, showed a particle size range of 40 to 80 nm with a wurtzite structure. The ZnO powders were introduced as a photocatalyst for the degradation of methyl orange, which was adopted as a model compound. UV light (6W) was used as the irradiation source to induce synthesized ZnO powders to perform catalytic activity. The photocatalytic reaction was executed in 40 mL of a 10 ppm methyl orange aqueous solution under 254 nm UV illumination. In this work, it was observed that both UV light and ZnO powders are needed for the photocatalytic reaction. In addition, it was found that increasing the amount of ZnO powder present in the MO (methyl orange‐C₁₄H₁₄N₃NaO₃S) solution did not correlate directly with an increase in photocatalytic ability. It was found that the scattering problem of UV light also needs to be considered. The optimized photocatalytic degradation ratio in this work reached 92.7%.     

Catalytic Kinetic Polarographic Determination of Trace Amount of Indium

The method of polarography for determination of trace In(III) had been reported by reference(l-2), However, The method of catalytic kinetic polarography has not been reported. Author discovered that trace indium(III) cold catalyze the discoloring oxidizing reaction of methyl orange by potassium bromate in 0.03mol/L H₂SO₄——0.25mol/L NH₃.H₂O supporting electrolyte, methyl orange exhibits a sensitive polarography wave at -0.45V(vs.SCE), The change in methyl orange concentration is traced by polarography. Hence, a new catalytic kinetic polarography method for determination of trace indium has been established. The method was used to determined trace indium in pure metallic zine with satisfactory results.     

循环流动固定床光催化反应器动力学数学模拟

以甲基橙为模型反应物,研究了连续循环固定床光催化反应器的动力学过程.根据光催化氧化过程特点,分析并建立了准一级反应动力学方程,对该反应系统的动力学过程进行动态数学模拟,用四阶Runge-Kutta法进行数值计算,结果表明数学模拟与实验数据相吻合.在该光催化反应体系中,处理量增加时实际反应速率常数k基本不变,而表观反应速率常数kapp变小,二者之间关系与反应器体积对处理量体积比（γ）密切相关;反应速率常数受起始浓度影响很大,在15～150 μmol•L－1浓度范围内,lnk=－0.48ln[c0]＋1.42;反应速率常数与光强的关系为k∝I0.5;反应速率常数受溶液pH值的影响也很大.     

Formation of sulfonated aromatic ketone chromophores within styrene-acrylic acid copolymers and their pH-responsive color change

Styrene-acrylic acid copolymer was synthesized via solution polymerization and then sulfonated by concentrated sulfuric acid. This sulfonated copolymer displays an obvious pH-responsive color change in aqueous solutions (1 g/L) from yellow (pH <6) to khaki (pH 6 to 7)/red (pH 7 to 8) to purple (pH >8). This response is as quick as for small-molecule pH indicators such as methyl orange and phenolphthalein within 1 s and can be reversible. The lowest critical concentration of this pH-responsive copolymer solution is around 0.1 g/L, which is about 50-500 times the necessary amount used for conventional small-molecule pH indicators. An intramolecular cyclization mechanism between a neighboring carboxyl group and a benzene ring to form a sulfonated aromatic ketone is proposed to explain this pH-responsive color change behavior. The molar ratio of 1:1 for styrene to acrylic acid is the most favorable for forming neighboring benzene and carboxyl group pairs in the copolymer chains and subsequently yields sulfonated aromatic ketone chromophores at full capacity.