Rapid communication Preparation of TiO_2 nanometer thin films with high photocatalytic activity by reverse micellar method

Two kinds of TiO_2 nanometer thin films were prepared on stainless steel bythe reverse micellar and sol-gel methods, respectively. The calcined TiO_ 2 thin films werecharacterized by X-ray diffraction (XRD), atomic force microscopy (AFM), BET surface area and X-rayphotoelectron spectroscopy (XPS). Photocatalytic activity was evaluated by photocatalyticdecoloration of methyl orange aqueous solution. The results showed that the TiO_2 thin filmsprepared by reverse micellar method (designated as RM-TiO_2 films) showed higher photocatalyticactivity than those by sol-gel method (designated as SG-TiO_2 films). This is attributed to the factthat the former is composed of smaller monodispersed spherical particles with a size of about 15 nmand possesses higher surface areas.

Sonocatalytic degradation of methyl orange in the presence of (nanometer and ordinary) anatase TiO_2 powders

The nanometer and ordinary anatase titanium dioxide(TiO_2) powders were adopted as the sonocatalysts for the degradation of methyl orange used as a model compound for the first time. It was found that the sonocatalytic degradation effect of methyl orange in the presence of TiO_2 powder were much better than that without TiO_2, but the sonocatalytic activity of the nanometer anatase TiO_2 particle was obviously higher than that of ordinary anatase TiO_2 particle. Although there are many factors influencing sonocatalytic degradation of methyl orange, the experimental results showed that the best degradation ratio of methyl orange could be obtained when the experimental conditions were: initial concentration 15 mg/L, nanometer anatase TiO_2 adding amount 750 mg/L, ultrasonic frequency 40 kHz, output power 50 W, pH = 3.0 and temperature 40℃ within 150 min. In addition, the catalytic activity of reused nanometer anatase TiO_2 catalyst was also studied and found to decline gradually comparing with initial nanometer anatase TiO_2 catalyst. All experiments indicated that the method of the sonocatalytic degradation of organic pollutants in the presence of TiO_2 powder was an advisable choice for non- or low-transparent organic wastewaters.

负载型纳米TiO_2光催化降解活性艳红X-3B染料

The washed and dried porous silica gel was soaked in water glass of moderate viscosity, then mixed with nanometer TiO 2, stired until TiO 2 has been uniformly distributed on the porous silica gel. After dried naturally, it was calcined at 300 ℃ for 1 h to give the immobilized nanometer TiO 2 which was mechanically and chemically stable, and can be reused. Under the illumination of high pressure Hg lamp, the X 3B dye could be degraded almost quantitatively(98%) in a solution containing the photocatalyst, Fe 3+ and H 2O 2 with bubbling of air.

Ti基纳米TiO_2-CNT-Pt复合电极制备、表征及电化学性能

以电合成前驱体Ti(OEt)4直接水解法和电化学扫描电沉积法制备Ti基纳米TiO2-CNT-Pt(Ti/nanoTiO2-CNT-Pt)复合电极.透射电镜(TEM)和X射线衍射(XRD)测试表明,锐钛矿型纳米TiO2粒子(粒径5～10nm)和碳纳米管(CNT)结合形成网状结构,Pt纳米粒子(平均粒径9nm)均匀地分散在纳米TiO2-CNT复合膜表面.循环伏安及计时电流测试表明,Ti/nanoTiO2-CNT-Pt复合电极具有高活性表面,对甲醇的电化学氧化具有高催化活性和稳定性,Pt载量为0.32mg/cm2时,常温常压下甲醇氧化峰电流达到480mA/cm2.

负载型纳米TiO_2光催化降解水中微量溶解性间二甲苯

以高压汞灯为光源 ,采用浸涂 -烧结法制备的负载型纳米TiO2 作为光催化剂 ,通过对水中微量溶解性间二甲苯的光催化氧化过程的研究表明 ,初始浓度在 6 .6 8— 17.36mg/L的范围内 ,间二甲苯的光催化反应遵循表观一级反应动力学规律 ,反应的表观速率常数随溶液初始浓度的增大而减小 ,半衰期则随初始浓度的增大而增加 ,经 1.5h反应后 ,溶液中间二甲苯的去除率从 17.36mg/L的 5 4 .4 4 %增加到 6 .6 8mg/L的 75 .90 %。

Study on Properties of Composite Oxides TiO_2/SiO_2

The nanometer particles of TiO_2 and TiO_2/SiO_2 oxides wereprepared by sol-gel supercritical fluid drying method. The propertiesof TiO_2 and TiO_2/SiO_2 were characterized by means of BET(Brunner-Emmett- Teller method), TEM (transmission electronmicroscopy), SEM (scanning electron microscopy), XRD (X-ray diffrac-tion) and FTIR (Fourier transform-infrared) techniques. The effectsof different preparation route, prehydrolysis and non-prehydrolysis,on the properties of TiO_2/SiO_2 oxide were also examined.

基于丝网印刷法制备的Pd/TiO_(2)薄膜用于光催化CO_(2)转化

光催化剂的固载化对其应用和回收有重要意义。首先以钛片作基底,乙基纤维素和松油醇作粘结剂,采用丝网印刷法制备TiO_(2)薄膜(w-xfilm-y,其中w为粘结剂与TiO_(2)质量比,x为印刷层数,y为焙烧温度),最后用光沉积法负载Pd颗粒制得Pd/TiO_(2)薄膜(负载型薄膜催化剂w-xfilm-y-0.18Pd,其中0.18为Pd的质量分数)。以颗粒催化剂(P-z-Pd,其中z为Pd质量分数)作对照,测试了两种气氛(CO_(2)和H_(2)、CO_(2)和C2H6)下w-xfilm-y-0.18Pd的光催化CO_(2)转化性能。采用XRD、HRTEM和XPS等表征了w-xfilm-y-0.18Pd的结构和活性中心,采用UV-Vis DRS和ESR技术分析了w-xfilm-y-0.18Pd的光学性质和活性物种。结果表明,丝网印刷一层的TiO_(2)薄膜的厚度为5μm,负载Pd颗粒后TiO_(2)薄膜的光吸收能力增强,TiO_(2)颗粒固载化不影响TiO_(2)的晶型,但影响了Pd颗粒的表面分散,导致Pd颗粒的粒径从2.3 nm增加到3.9 nm。w-xfilm-y-0.18Pd表面负载的Pd颗粒作为电子捕获阱,定向迁移光生电子至Pd颗粒负载面进行富集,强化了CO_(2)加氢制CH_(4)性能,与P-0.25-Pd相比,CH_(4)生成速率从26.0μmol/(g·h)提高到198.5μmol/(g·h)。w-xfilm-y-0.18Pd负载的Pd颗粒粒径增大,光照时羟基自由基数量减少,导致其催化CO_(2)氧化C2H6脱氢制C2H_(4)性能较差,与P-0.25-Pd相比,C2H_(4)生成速率从479.9μmol/(g·h)降低至42.5μmol/(g·h)。

固载型TiO_(2)光催化模块应用于城镇污水协同消毒中试研究

采用固载型TiO_(2)光催化模块协同紫外线消毒,能提高紫外线消毒的速度和反应效率,降低消毒所需的紫外线辐射剂量,降低浊度对紫外线消毒效果的影响,减少紫外线消毒常见的“光复活”现象,同时还能一定程度上强化尾水COD去除,降低UV254,减少出水生态毒性。在渠式紫外线消毒基础上,增加光催化模块,停留时间9 s时,可达到3.75对数级的灭活率,出水粪大肠杆菌数低于103CFU/L,较单纯紫外线消毒反应器12 s停留时间的灭活效果更好;同时显著降低浊度对紫外线消毒效果的影响,降低光复活率,对出水UV254去除率高达48%,是紫外消毒UV254去除率的2倍以上。光催化反应器可以减少消毒过程的能耗,降低运行成本,提高紫外线消毒效果可靠性。

纳米氧化钛氧化硅复合光催化剂的制备及表征

以硅酸钠、硫酸钛为原料,添加乙二醇单甲醚,采用沸腾回流水解法,制备出二氧化钛-二氧化硅复合光催化剂。讨论了二氧化钛-二氧化硅复合光催化剂的最佳制备条件,并用XRD、XPS、TEM、BET等手段对样品进行了表征。结果表明,所制备的二氧化钛-二氧化硅复合光催化剂,由锐钛矿型二氧化钛和无定型二氧化硅组成,粒径在10nm左右。

b-N-TiO_(2)/Ag_(3) PO_(4)复合光催化材料的制备及光催化降解有害藻的研究

为了获得高效、低能耗的藻污染控制方法,通过煅烧-沉淀法制备出b-N-TiO_(2)/ Ag_(3)PO_(4)复合光催化材料,通过SEM、TEM、XRD、XPS、UV-Vis等表征手段对材料的整体形貌、表面结构和光响应性能进行测试分析.结果表明:①b-N-TiO_(2)均匀分布在Ag_(3)PO_(4)表面,增强了对可见光的响应,并促进了光生电子-空穴对的分离.②b-N-TiO_(2) /Ag_(3)PO_(4)(0.2T A)复合光催化材料降解铜绿微囊藻(Microcystis aeruginosa)细胞中叶绿素a(Chla)的效果最好,其拟一级动力学方程速率常数分别比纯Ag_(3)PO_(4)和b-N-TiO_(2)高2.73和7.72倍,经过8 h可见光催化后,对Chla的降解率为98.1%,且重复利用3次后降解率仍可达85.4%,具有较高的光催化稳定性.③固定化b-N-TiO_(2)/ Ag_(3)PO_(4)复合光催化材料对实际地表水中的藻细胞和藻毒素具有良好的光催化降解性能.因此,b-N-TiO_(2) /Ag_(3)PO_(4)复合光催化材料在未来有害藻类污染的水处理中具有潜在的应用前景.

pH调节-分散协同作用对纳米TiO_(2)水分散性研究

为研究纳米TiO_(2)粒子在水中的分散性和稳定性,对pH调节剂[NaOH、氨水溶液、2-氨基-2-甲基-1-丙醇(AMP-95)]和分散剂[六偏磷酸钠(SHMP)、聚丙烯酸钠(PAAS)]协同作用下纳米TiO_(2)的水分散性能进行了研究,采用原子力显微镜(AFM)、Zeta电位仪分别表征分散性和稳定性。结果表明,pH为10时,NaOH与SHMP组合对纳米TiO_(2)的分散效果最好,AFM测得的高h=2.78 nm;AMP-95与PAAS组合纳米TiO_(2)水分散体系分散稳定性最好,δ=-50.337 mV;pH调节剂与分散剂协同作用效果明显。

纳米SiO_(2)和纳米TiO_(2)改性SMA沥青混合料性能对比试验研究

为深入探究纳米SiO_(2)和TiO_(2)的掺量对SMA沥青混合料性能的影响,将以煤油为分散剂的纳米SiO_(2)和TiO_(2)改性剂加入沥青中分别制备纳米SiO_(2)和TiO_(2)改性沥青混合料,采用Humberg高温车辙试验、间接拉伸试验、低温弯曲试验及冻融劈裂试验研究对比纳米SiO_(2)和TiO_(2)掺量(沥青质量的0%、0.3%、0.6%、0.9%、1.2%和1.5%)对其性能的影响。研究结果表明,纳米材料Si0_(2)和TiO_(2)可显著提高沥青混合料的性能,纳米TiO_(2)和纳米SiO_(2)最佳含量分别是0.9%和1.2%。由于纳米SiO_(2)材料具有高水分敏感性,其改性沥青混合料的冻融劈裂强度及劈裂强度比不同程度降低,但1.2%用量纳米SiO_(2)改性制成的沥青混合料相较0.9%纳米TiO_(2)改性沥青混合料,在抗车辙、抗劈裂和低温抗裂性能仍有着一定优势。

固载型纳米TiO_(2)光催化对城镇污水消毒研究

以泡沫镍作为载体,利用电沉积技术将纳米TiO_(2)负载在泡沫镍上,制成固载型TiO_(2)光催化材料和光催化反应器。相同条件下,紫外线消毒反应器4 min内可达到3.48个对数级的粪大肠杆菌灭活率,而光催化反应器3 min内即可达到3.45个对数级的粪大肠杆菌灭活率,光催化反应器较单纯紫外线消毒具有更好的消毒效果;反应时间4 min时,污水浊度达到4 NTU以上时,即对紫外线消毒反应器粪大肠杆菌灭活率产生显著影响;而对光催化反应器,只有在污水超过6 NTU后,粪大肠杆菌灭活率才会显著降低。试验表明,光催化反应和紫外线杀菌具有协同消毒作用,能显著提高紫外线消毒的速度和反应效率,降低消毒所需的紫外线辐射剂量,降低浊度对紫外线消毒效果的影响。固载型光催化技术研究,对降低紫外线消毒投资和运行成本,促进城市污水紫外线消毒技术的推广具有重要意义。

纳米TiO_(2)乳化沥青的制备与性质研究

选择合适的乳化剂及工艺制备乳化沥青,并研究纳米颗粒TiO_(2)对乳化沥青性能的影响。纳米TiO_(2)能够改善乳液体系稠度和黏度、降低法向力,提高SPG高温温度等级;在高掺量情况下会带来存储稳定性的劣化,并提高乳化沥青残留物的高温等级,在0%~3%掺量范围内,乳化沥青的SPG高温等级为70℃;在3%掺量后可以达到73℃。实际应用中为防止存储稳定性和破乳提前的现象,推荐纳米粉体掺量应小于2%。

固定化改性TiO_(2)光催化消毒性能与机理研究

发展中国家农村地区饮用水普遍存在着微生物超标问题,太阳光消毒法(SODIS)是实现饮用水微生物控制、提高当地居民饮水质量的潜在技术.目前,SODIS法存在光照利用率低的问题,消毒效果完全依赖于环境温度与光照强度,仅在低纬度地区晴朗天气环境下效果较好.本研究通过材料改性强化TiO_(2)光催化性能,利用固定化技术提升催化剂的循环利用效率,开发了固定化改性TiO_(2)光催化消毒用技术,克服了上述SODIS法的缺陷.本研究采用水热法分别合成了暴露(001)或(101)晶面的锐钛矿相二氧化钛,暴露(110)面的金红石相二氧化钛以及不暴露特定晶面的锥形混晶相二氧化钛.通过与对照标准品比较在光照下灭活耐热大肠杆菌速率后发现,晶体类型对灭活速率的影响顺序为晶相>暴露晶面>晶粒形状.XRD、SEM、UV-vis、XPS价带谱、Zeta电位、ICP-MS等表征结果表明,催化剂的较高价带位置与表面电位在消毒过程中起主导作用,尖锐棱角形貌起次要作用.将001-TiO_(2)粉末样品固定化后,减少了循环使用中的催化剂损失,经处理水中细菌残留率仅为0.4%,优于已报道的固定化P25 TiO_(2)样品(1.8%)和仅光照条件下的空白对照组(67.3%).通过对200个凋亡细菌菌体的形貌分析并计数发现,光催化消毒对水中微生物的去除机制按重要性排序,依次为空穴与自由基化学氧化(139个)、晶粒与菌体表面电荷吸引包埋(48个)和晶体颗粒尖锐棱角物理破坏(13个).综上所述,本研究建立的固定化晶面暴露锐钛矿相TiO_(2)基光催化消毒技术在光强70 mW·cm^(-2),25℃下即具有良好消毒效果,为发展中国家农村地区单户型饮用水消毒提供了可行的解决方案.

Effect of TiO_(2) support on immobilization of cobalt porphyrin for electrochemical CO_(2) reduction

Electrochemical reduction of CO_(2) is a promising strategy to manage the global carbon balance by transforming CO_(2) into chemicals. The efficiency of CO_(2) electroreduction is largely dependent on the design of hybrid electrode where both support and catalyst govern the performance of the electrolyzer. In this work,TiO_(2) calcined at different temperatures, was used as a support for immobilization of cobalt tetraphenyl porphyrin(CoTPP) and its effect on CO_(2) reduction was studied. It is demonstrated that the crystalline phase of TiO_(2) and doping of TiO_(2) apparently affecting CO_(2) electroreduction. It is found that anatase phase exhibits higher activity and selectivity compared to rutile due to the enhanced conductivity which in turn enables faster electron transfer between the support and CoTPP. As for dopants, the carbon doping in anatase TiO_(2) is proven to further enhance its conductivity, consequently resulting in the enhanced performance. This study implies that the rational design of supports is important for the performance of the hybrid electrode towards electrochemical CO_(2) reduction.

纳米二氧化钛颗粒职业暴露人群血清非靶向代谢组学研究

目的研究纳米二氧化钛颗粒(TiO_(2)-NPs)职业暴露人群血清代谢谱变化,探索TiO_(2)-NPs健康效应的生物标志物和损伤机制。方法于2020年6月至2021年6月,通过典型抽样的方法选取某TiO_(2)-NPs生产企业职工为研究对象,从企业中选取接触TiO_(2)-NPs工人64人为暴露组,选取同企业后勤行政人员62人为对照组,使用非抗凝采血管收集血样。样品经甲醇沉淀蛋白后采用超高效液相色谱飞行时间质谱技术采集非靶向代谢组学数据,筛选生物标志物并进行代谢通路分析。结果通过P<0.05和变量重要性投影指标(VIP)值>1两个指标筛选出46个差异代谢物,主要包括甘油酯类、鞘磷脂类、甘油磷脂类、脂肪酰基类等;通过受试者工作曲线(ROC)分析确定3-羟基-4,5-二甲基-2(5H)-呋喃酮、4-氨基联苯、庚酰肉碱、十六烷二酸单-L-肉碱酯、伊布利特、LysoPA[18∶1(9Z)/0∶0]、LysoPC(18∶0)、PC(16∶0/16∶0)、PC[16∶0/20∶4(5Z,8Z,11Z,14Z)]、PC[P-18∶1(9Z)/P-18∶1(9Z)]10个候选生物标志物;涉及4条代谢通路的变化,分别为甘油磷脂代谢,鞘脂代谢,苯丙氨酸、酪氨酸和色氨酸的生物合成,亚油酸代谢。结论TiO_(2)-NPs职业暴露会对血清代谢谱产生明显影响。