刷涂热分解法制备Ti/SnO_2-Sb_2O_5阳极及其性能

通过刷涂热分解法制备了锑掺杂的钛基二氧化锡(Ti/SnO2-Sb2O5)涂层电极.在酸性介质中,用扫描电镜(SEM)、X射线衍射仪(XRD)、循环伏安和快速寿命测试等方法研究了Ti/SnO2-Sb2O5电极制备条件、电极结构、性能和寿命.结果表明,Ti/SnO2-Sb2O5电极涂层具有"干泥"结构,用锡锑摩尔比为9∶1的涂液组成、在550℃烧结温度下制备的Ti/SnO2-Sb2O5的电极涂层平整致密,龟裂小,电极孔隙率小,稳定性最好.

Ti/SnO_2-Sb_2O_5/PbO_2阳极电催化降解含环己酮废水的研究

高浓度、组成复杂的工业有机废水难以直接用普通的生物处理法处理,因此,需要探索经济有效的废水处理方法.电化学氧化法是比较有效的处理该类废水的方法.采用Ti/SnO2-Sb2O5/PbO2电极作为阳极,探索利用阳极电催化氧化法处理含环己酮废水的方法,采用紫外可见分光光度法对降解反应过程进行监测,对降解反应机理进行了探讨,对电解反应条件进行了优化.实验结果表明,用Ti/SnO2-Sb2O5/PbO2电极电催化降解处理含环己酮的有机废水是一种有效的方法,并与生物处理法联用,产生了节约废水处理费用的良好方法.

电镀烧结法制备Ti/SnO_2-Sb_2O_4电极的研究

The Ti/SnO2 Sb2O4 electrode has been prepared by the electroplate sinter method. The effect of SbCl3 adding amount and sintering temperature on its electrode lifetime and oxygen evolution potential were investigated by means of EDX, SEM and XRD analysis. The results indicated that the electrode appeared the best performance when the SbCl3 adding amounts was 0.2g and the sintering temperature was 550℃. In optimized conditions Ti substrate was entirely covered by SnO2 Sb2O4 and the combinations among them were tight. Due to the use of electroplate method, the electrical conductivity, the oxygen evolution potential and the electrode lifetime were increased, so the electro catalytic activity and the electrochemical stability of the prepared electrode were found to be superior.

Ti/SnO_2-RuO_2-Sb电极电氧化处理五氯苯酚模拟废水研究

采用刷涂-热解法制备了Sb、Ru掺杂的Ti/SnO2电极。通过SEM、EDX、XRD和循环伏安扫描(CV)表征了电极表面形态、组成、结构和电化学性质,并通过正交试验考察了电催化氧化降解五氯苯酚的影响因素。结果表明,各因素对五氯苯酚转化率影响的大小顺序依次为:底物初始质量浓度、反应温度、反应时间、电流密度、初始溶液pH值。在底物质量浓度为50mg.L-1,反应温度50℃,反应时间180min,电流密度40mA.cm-2,溶液初始pH值为8的条件下五氯苯酚的转化率达到97.6%。

Sm掺杂Ti/SnO_2-Sb电极电催化氧化性能

采用涂层热解法制备Sm掺杂Ti/SnO2-Sb电极.以C6H5NO3(对硝基苯酚)为目标有机物,考察不同热处理温度、不同Sm掺杂量下制备的电极的电催化性能,采用LSV(线性扫描曲线)、降解曲线和破损的分析方法研究电极的电催化氧化性能和使用寿命.结果表明:最佳热处理温度为550℃,xSn∶xSb∶xSm=100∶10∶1电极的综合性能最好.在降解有机物试验中,不掺杂Sm的电极降解率为74.4%,掺杂率为1%的电极降解率为85.6%,掺杂率为2%的电极的降解效率仅为74.2%.因此,适量的稀土Sm掺杂有利于提高电极的电催化性能.

Ti/SnO_2-Sb_2O_5/PbO_2阳极电化学氧化降解咪草烟及其过程监测

Methodology for the electrochemical decomposition of imazethapyr using Ti/SnO2-Sb2O5/PbO2 anode in Na2SO4 medium is suggested in this paper. The electrolysis reaction conditions were optimized. The process of electrochemical decomposition was monitored by ultra-violet spectrophotometry and CODCr method. The electrochemical decomposition mechanism of imazethapyr was studied primarily by UV-VIS spectrophotometry. The effectiveness of the electrochemical pretreatment was proved by the comparative aerobic biological treatment test based on the activated sludge process.

Ti/SnO2-Sb电极的制备及降解罗丹明B的研究

采用高温热氧化法制备Ti/SnO2-Sb电极,用扫描电子显微镜(SEM)表征电极的形貌,EDX对电极表层各元素组分的相对含量进行分析.以Ti/SnO2-Sb电极为阳极,钛网为阴极,对罗丹明B染料模拟废水进行电催化氧化降解.结果表明,当罗丹明B的初始浓度为100 mg/L,电流密度为10 mA/cm2,电解质浓度为0.10 mol/L,pH=7时,反应30 min罗丹明B脱色率为97.5%,60 min时溶液的COD去除率为70.5%.

Ti/SnO_2-Sb电极的制备及降解亚甲基蓝的研究

采用高温热氧化法制备了Ti/SnO_2-Sb电极,用扫描电子显微镜(SEM)表征了电极的形貌。以Ti/SnO_2-Sb电极为阳极,钛网为阴极,对亚甲基蓝废水进行电催化氧化降解,研究不同因素对亚甲基蓝脱色率的影响,并分析了亚甲基蓝的降解效果。结果表明,当亚甲基蓝的初始浓度为100mg·L^(-1),电流密度为10mA·cm^(-2),电解质浓度为0.10mol·L^(-1),pH=10时,反应30min,亚甲基蓝的脱色率为98.8%,60min时溶液的COD去除率为72.8%。

Ti/SnO_2,Ti/SnO_2-Sb_2O_3阳极电催化氧化酸性品红的试验研究

采用热氧化法制备了Ti/SnO2和Ti/SnO2-Sb2O3电极,以酸性品红为研究对象,对两种电极材料进行了性能比较,考察槽电压、电流密度、电解质浓度对电催化氧化处理系统的影响。结果表明:热氧化法制备出的Ti/SnO2-Sb2O3电极,其电催化性能明显优于Ti/SnO2电极;以Ti/SnO2-Sb2O3为阳极,在酸性品红初始浓度为100 mg/L、电极间距为2.5 cm、电流密度为75mA/cm2、电解质浓度取12 g Na2SO4/L时,60 min后酸性品红的去除率达到了95.41%。

新型Ce掺杂Ti/SnO_2-Sb电极的制备及其性能研究

采用超声涂覆-热分解法制备稀土金属Ce掺杂Ti/SnO_2-Sb电极,利用SEM对电极表面形态进行表征,并考察了Ce掺杂量和电流密度对修饰电极电催化性能和稳定性的影响。结果表明,掺杂后电极涂层中引入了新物质CeO_2,优化了电极的表面结构和形态;制备得到的电极对苯酚和对甲酚都有较好的降解效果,当Ce掺杂量为1%时降解苯酚性能最优,Ce掺杂量为2%时降解对甲酚性能最优;在最优掺杂量下,当电流密度为10 m A/cm2时降解苯酚性能最佳,电流密度为20 m A/cm2时降解对甲酚性能最佳。

Ti/SnO_2-Sb_2O_3和Ti/SnO_2-Sb_2O_3/PbO_2-Fe阳极电催化氧化染料废水的试验研究

本文采用Ti/SnO2-Sb2O3和Ti/SnO2-Sb2O3/PbO2-Fe电极,以酸性橙II、茜素红、亚甲基蓝作为研究对象,考察电催化氧化法对不同染料的模拟废水的处理效果。结果表明:经60min电解后,初始浓度同为100mg/L的模拟废水,酸性橙II的去除率在80%左右,茜素红的去除率均在65%以上,亚甲基蓝的去除率仅为45%左右。结合染料的化学结构,对电催化氧化法降解酸性橙II的效果要比茜素红和亚甲基蓝好的原因进行了分析。

Ti/SnO_2-Sb_2O_5/PbO_2阳极电化学氧化降解苯甲酸研究

文章研究了Ti/SnO2-Sb2O5/PbO2在两室电解池中氧化降解苯甲酸的性能,主要考察了电流密度、初始pH值、初始苯甲酸浓度和支持电解质这四个参数对TOC去除效率的影响。实验表明在电流密度为30 mA/cm2,初始苯甲酸浓度为0.5 mmol/L,支持电解质(Na2SO4)为0.1 mol/L的条件下,经过6 h反应,TOC去除效率达到65%。初始pH值对TOC去除没有显著的影响。

微流控反应器中苯酚在Ti/SnO_2-Sb_2O_5电极上的阳极氧化分析

目前在电化学氧化处理法降解苯酚废水的研究过程中,研究者多将重心放在活性电极的探索及制备上,而对于反应器的开发鲜有报道。就这一问题,本文研究了新型微流控反应器中苯酚的电化学降解效果。电化学氧化实验在装有Ti/SnO2-Sb2O5阳极的微型流通池中操作进行,实验对循环体系的体积流率ΦV、电极间距h的影响进行了考察。结果表明,当流通电解槽中的阴阳极间距采用微米级尺寸时,苯酚的阳极氧化反应取得了较快的氧化速度。在i=20 m A/cm2、ΦV=0.54 m L/min的电解条件下,电解2~3h苯酚去除率即可达到90%以上,相同流速下电极间距h越小降解速率越快。且由数据回归得到了苯酚的一系列随h的减小而增大的准一级反应的反应速率常数。这一结论表明微流控电解槽内的苯酚降解过程主要传质控制过程。

Ti/SnO2-Sb2O5-CuO电极制备及其降解模拟高盐印染废水中氨氮的研究

本文采用热分解法制备了Ti/SnO2-Sb2O5-CuO电极,通过SEM、极化曲线及强化寿命测试对电极性能进行检测分析。研究发现相较于Ti/Sn O2-Sb2O5电极,Ti/SnO2-Sb2O5-CuO电极表层更加致密,析氧电位更高,析氯电位更低,电极强化寿命更长。以模拟高盐印染废水中铵态氮作为研究对象,考察了Ti/SnO2-Sb2O5-CuO电极的降解性能,结果表明：50 mg/L氨氮,氯离子浓度〈10 g/L,氨氮的降解速率和去除效率随氯离子浓度的增加而增加;氯离子浓度≥10 g/L,继续增加氯离子浓度,降解速率和去除效率无明显变化;在2-10 m A/cm2范围内,增加电流密度,降解速率加快,但氨氮的去除率变化不大;Ti/SnO2-Sb2O5-CuO电极对氨氮的去除率可达90%以上,废水中氨氮浓度能降低到3 mg/L以下,达到印染废水的国家排放标准。

高阳极电势窗口的SnO_2-Sb_2O_3/Ti电极的制备

制备了不同热处理温度和涂层次数的SnO2-Sb2O3/Ti电极,研究了不同电极涂层的氧化物组成,涂层表面形貌和阳极电势窗口及其三者的内在关系,考察了不同制备工艺条件的电极对电催化高铁性能的影响.结果表明430℃是电极最佳的热处理温度,涂层次数增加为30次时,电极具有高的阳极电势窗口,同时能降低高铁氧化还原反应的超电势,更真实的展现高铁电化学生成的热力学原貌.

Ti/SnO_2-Sb:Eu^(3+)电极制备及性能表征

以SnCl_4·5H_2O、Sb_2O_3和Eu_2O_3为原料,以钛片为基体,采用涂层热解法制备了Eu^(3+)掺杂Ti/SnO_2-Sb电极。研究了电极的电化学性能,对所制备的电极作LSV和Tafel曲线,以对硝基苯酚为目标降解有机物,考察了电极的电催化活性。分析Eu^(3+)掺杂量对电极性能的影响,采用X-射线衍射(XRD)、扫描电镜(SEM)和能谱仪(EDS)等检测方法对Eu^(3+)掺杂Ti/SnO_2-Sb电极表面涂层的晶体结构、形貌和元素组成进行了研究;,发现掺杂量为1%的电极的性能最佳,此条件下得到的电极有高的析氧电位和电催化活性,以及较好的电极涂层结构和覆盖度。

Electrochemical Oxidation of Chlorimuron-ethyl on Ti/SnO_2-Sb_2O_5/PbO_2 Anode for Waste Water Treatment

The electrochemical oxidation of chlorimuron-ethyl on metry. The electrochemical behaviour of the electrode in a sodium Ti/SnO2-Sb2O5/PbO2 electrode was studied by cyclic voltamsulfate solution and in the mixture solution of sodium sulfate and chlorimuron-ethyl was studied. The experimental results of cyclic voltammetry show that the acidic medium was suitable for the efficient electrochemical oxidation of chlorimuron-ethyl. Some electro-generated reagent was formed in the electrolysis process and chlorimuron-ethyl could be oxidized by the electro-generated reagent. A Ti/SnO2-Sb2O5/PbO2 electrode was used as the anode and the electrolysis experiment was carried out under the optimized conditions. The electrolysis process was monitored by UV-Vis spectrometry and high performance liquid chromatography（HPLC）, and the chemical oxygen demand（COD） was determined by the potassium dichromate method. The mechanism of chlorimuron-ethyl to be oxided was studied primarily by the cyclic voltammetry and UV-Vis spectrometry. The results of electrolysis experiment demonstrate the possibility of the electrode to be used as an anode for the electrochemical treatment of chlorimuron-ethyl contained in waste water.

Photoelectrocatalytic activity of two antimony doped SnO_2 films for oxidation of phenol pollutants

Two types of Sb-doped SnO2 films on titanium substrate were prepared by the combination of electro-deposition and dip-coating (Ti/SnO2-Sb2O4/SnO2-Sb2O4) and single dip-coating (Ti/SnO2-Sb2O4), respectively. The surface morphology and crystalline structure of both film electrodes were characterized using X-ray diffractometry(XRD) and scanning electron microscopy(SEM). XRD spectra indicate that the rutile SnO2 forms in two films and a TiO2 crystallite exists only in Ti/SnO2-Sb2O4 electrode. SEM images show that the surface morphology of two films is typically cracked-mud structure. The photooxidation experiment was proceeded to further confirm the two electrode activity. The results show that the photoelectrocatalytic degradation efficiency of Ti/SnO2-Sb2O4 electrode with sub-layer is higher than that of simple Ti/SnO2-Sb2O4 electrode using phenol as a model organic pollutant. The Ti/SnO2-Sb2O4/SnO2-Sb2O4 photoanode has a better photoelectrochemical performance than Ti/SnO2-Sb2O4 photoanode for the removal of organic pollutants from water.

热处理温度对铕掺杂Ti/SnO_2-Sb电极性能的影响

采用涂层热解法制备了不同热处理温度的铕掺杂Ti/SnO2-Sb电极。对所制备电极作LSV曲线和Tafel曲线,研究了电极的电化学性能;以对硝基苯酚为目标有机物,考察了电极的电催化活性;采用SEM,EDS,XRD等分析方法表征了电极表面涂层的形貌、元素组成及结构。实验结果表明,热处理温度对电极的各项性能有较大的影响,制备电极时最佳的热处理温度为550℃,该温度下制备的电极有较高的析氧电位和电催化能力,以及较好的电极表面涂层结构和覆盖度。

改性Ti/SnO_2-Sb电极催化降解1,4-二氯苯废水试验研究

采用聚合物前驱体法制备了未掺杂、掺杂Cu、掺杂Bi、掺杂Ni的4种Ti/Sn O2-Sb电极,运用SEM和XRD分析电极表面形貌及结构,通过线性极化扫描、循环伏安等测试考察其电化学性能,同时进行1,4二氯苯(p-DCB)降解实验进一步探究电极的电催化氧化特性.SEM和XRD结果表明,掺杂金属可改善电极表面形貌,增大其比表面积;电化学测试表明,Ti/Sn O2-Sb电极的析氧电位并未因金属掺杂而有明显改变,掺杂金属后,Ti/Sn O2-Sb电极具有更优的电催化活性和稳定性.p-DCB降解实验表明,改性Ti/Sn O2-Sb电极对p-DCB的降解效率明显提高,其中Ti/Sn O2-Sb-Cu电极的电催化处理效果最优,电解2 h后p-DCB的去除率即达到87.6%,且p-DCB的降解反应遵循一级反应动力学规律.