Preparation and Characterization of Cerium Doped Ti/SnO_2-Mn_2O_3/PbO_2 Electrode

The acid-proof anode Ti/SnO2+Mn2O3/PbO2 doped with Ce was prepared by thermal decomposition and electrodeposition combination technology, the effect of Ce on the morphology and structure of anode was also studied in this paper. The results obtained by cyclic voltammetry (CV), electrochemical impedance spectroscopic (EIS), X-ray Diffraction (XRD) and scanning electron microscopy (SEM) indicated that PbO2 crystal grains presented honeycomb structure were formed on the electrode surface by doping with Ce. The specific surface areas and catalytic active sites of the Ce-PbO2 doped electrode were increased and the catalytic activity was evidently greater than the undoped one. However, when Ce was doped into the intermediate layer (SnO2+Mn2O3), a more cracked surface structure formed, thus leading electrode deactivation by passivation of the Ti-substrate. So the anodic stability was decreased according to the accelerated life tests.

Ti^(4+)掺杂制备花状SnO_(2)/Sn_(3)O_(4)异质结微米球及其光催化性能

通过水热法制备了由层状纳米片堆叠而成的花球状Sn_(3)O_(4)及x%Ti⁃SnO_(2)/Sn_(3)O_(4)(x%为Ti与Sn的物质的量之比)。采用X射线粉末衍射、扫描电子显微镜、透射电子显微镜、X射线光电子能谱、紫外-可见漫反射光谱、红外光谱和光电流响应等物理化学方法对合成的样品进行表征分析。结果表明,由于Ti^(4+)电负性及离子半径与Sn4+相似,可以很好地进入Sn_(3)O_(4)晶格中替代Sn4+形成替代掺杂,但不引起大的晶格畸变。同时,掺入Ti^(4+)后使得一部分Sn4+直接与O结合生成纳米球状SnO2颗粒分散覆盖在Sn_(3)O_(4)表面,形成SnO_(2)/Sn_(3)O_(4)异质结。光催化活性表明,x%Ti⁃SnO_(2)/Sn_(3)O_(4)不仅具有较强的还原Cr^(6+)能力,而且拥有氧化降解有机污染物甲基橙和酸性橙Ⅱ的能力。催化活性的增强归因于x%Ti⁃SnO_(2)/Sn_(3)O_(4)具有比较大的比表面积和更强的光吸收,同时SnO_(2)/Sn_(3)O_(4)异质结的生成有效地提升了光生电子与空穴的分离效率。

两种钛基涂层电极电催化氧化酸性品红研究

采用热氧化法制备了Ti/SnO_2和Yi/SnO_2-Sb_2O_3电极,以酸性品红为研究对象,对比了两种电极材料的电催化效果。结果表明:相对于Ti/SnO_2阳极,Ti/SnO_2-Sb_2O_3阳极对酸性品红有着更好的去除效率和降解速率。两种电极的电催化氧化过程均符合一级动力学模型。酸性品红在Ti/SnO_2-Sb_2O_3阳极上电催化氧化降解过程的紫外-可见光谱图表明在电流密度75 mA·cm^(-2),电解质Na_2SO_4浓度12 g·L^(-1)的条件下,处理100 mg·L^(-1)的酸性品红模拟废水,60 min内其在λ_(max)=545 nm的特征吸收峰消失,酸性品红基本去除,但同时生成了部分小分子中间产物。

不同阳极材料对膜法电积钴效果的影响

采用双膜三室电积法进行金属钴绿色制备,有效地解决了氯气腐蚀设备及环境污染问题。以电流效率、电积能耗作为评价指标,探讨3种不同类型阳极(Ti/SnO_(2)+Sb_(2)O_(3)/IrO_(2)+MnO_(2),Ti/PbO_(2),PbAg合金)对电沉积过程的影响规律;并采用线性电位扫描伏安法和线性极化扫描伏安法研究阳极材料的析氧电催化性能与抗酸腐蚀性能。实验结果表明,相比于其他阳极,在不同电流密度下,Ti/SnO_(2)+Sb_(2)O_(3)/IrO_(2)+MnO_(2)的槽电压最低,钴沉积量最多,平均电流效率最高(93.6%)、平均电积耗能最少(4068.3 kWh·t^(-1)),氯气消减率高达96.8%,抑制氯气效果最佳。通过分析析氧极化曲线,显示Ti/SnO_(2)+Sb_(2)O_(3)/IrO_(2)+MnO_(2)的初始析氧电位最低,为1.22 V;析氧电位的高低顺序为Ti/SnO_(2)+Sb_(2)O_(3)/IrO_(2)+MnO_(2)<Ti/PbO_(2)<PbAg合金。通过分析线性极化曲线,得出不同阳极的腐蚀电位大小顺序是Ti/SnO_(2)+Sb_(2)O_(3)/IrO_(2)+MnO_(2)>Ti/PbO_(2)>PbAg合金,Ti/SnO_(2)+Sb_(2)O_(3)/IrO_(2)+MnO_(2)的腐蚀电位最高,腐蚀电流最小,说明耐酸腐蚀性极佳,这归因于中间层SnO_(2)+Sb_(2)O_(3)的机械隔离作用,阻止新生态氧侵入钛基体。