微波超声强化银掺杂TiO_2催化剂光催化活性的研究

在[Bmim]PF6离子液体介质中,用溶胶凝胶-微波干燥法制备银掺杂TiO_2光催化剂TiO_2-Ag.以甲基橙为有机污染物,用微波超声组合仪分别在微波(MW)、紫外(UV)、紫外-微波(UV-MW)和超声-紫外-微波(UT-UV-MW)4种条件下降解甲基橙溶液,考察银掺杂对催化剂降解甲基橙的影响,以提高催化剂光催化性能.分别用X射线衍射分析(XRD)、扫描电子显微镜(SEM)、能谱分析(EDS)、热重-差示扫描量热分析(TG-DSCDTG)、固体紫外可见分析(Uv-vis)和红外分析(IR)对TiO_2-Ag催化剂进行测试表征.结果表明,优化条件下制备TiO_2-Ag催化剂在UV、UV-MW和UT-UV-MW条件下降解甲基橙35 min后,甲基橙的降解率分别为88.05%、93.98%和99.84%;降解甲基橙55min后,甲基橙的降解率分别为98.79%、99.05%和99.90%.在UTUV-MW条件下降解25min后,降解率接近100%.表明TiO2-Ag催化剂具有较高的光催化降解活性,微波超声协同作用加快光催化降解反应进行.催化剂的结构分析表明,银掺杂抑制了二氧化钛晶相的转变,使相变温度升高,稳定性增强;同时,催化剂向可见光区扩宽了光响应范围,提高了量子效率,从而光催化性能得以提高.     

硼硫共掺杂TiO2的光催化性能及掺杂机理

采用水热法制备了硼硫共掺杂的TiO2光催化剂(TiO2-B-S),并用其光催化降解甲基橙.结果表明,在240℃下水热反应12h时制得的TiO2-B-S具有较高的催化活性,紫外光照射50min和太阳光照射230min时对甲基橙的降解率分别达99.8%和81%.X射线粉末衍射、紫外-可见漫反射光谱和X射线光电子能谱等研究表明,TiO2-B-S为锐钛矿晶型,硫硼掺杂能抑制TiO2粒径的生长;TiO2-B-S同时具有较高的紫外光和可见光活性的原因可能是掺杂的硼以B3 进入晶格中,导致TiO2晶格畸变,带隙变窄.掺杂的硼和硫还提高了TiO2的表面酸度和对可见光的吸收.     

Si掺杂介孔SO_4~(2-)/TiO_2的非模板剂法合成及表征

在不使用模板剂的条件下,以工业硫酸氧钛溶液为原料合成介孔偏钛酸前驱体,再经正硅酸乙酯浸渍焙烧制备了具有良好热稳定性的Si掺杂介孔SO42-/TiO2.采用X射线衍射、N2吸附-脱附、扫描电镜、X射线能谱和傅里叶变换红外光谱等表征方法对样品的组成和结构进行了分析,并考察了该材料在亚甲基蓝氧化降解反应中的光催化性能.结果表明,在焙烧过程中,被吸附在偏钛酸孔道内的正硅酸乙酯发生水解,并与偏钛酸孔壁上的自由羟基形成Ti-O-Si键;Si进入二氧化钛骨架中,对孔结构起到了支撑作用,从而提高了介孔SO42-/TiO2的热稳定性.700℃焙烧2 h后,Si掺杂介孔SO42-/TiO2材料的比表面积仍达到189 m2/g,平均孔径为2.8 nm.400℃焙烧的样品在亚甲基蓝降解反应中表现出较好的光催化活性.     

大孔-介孔氮掺杂二氧化钛的制备及其光催化性能测试

以嵌段共聚物为模板剂,甲酰胺为氮源,结合溶胶凝胶法制备了具有可见光活性的大孔-介孔氮掺杂二氧化钛(N-TiO2)材料.通过X射线衍射、低温N2吸附-脱附、扫描电镜、紫外-可见吸收光谱等手段,考察了嵌段共聚物对样品微结构和可见光活性的影响.结果表明,样品主要以锐钛矿相和板钛矿相混合形式存在;改变嵌段共聚物的浓度,可以制得晶粒粒径9～12 nm,孔径10～14 nm,禁带宽度2.98～2.76 eV的大孔-介孔N-TiO2,且随着模板剂加入量的增加,大孔孔径增大,孔壁增厚.对甲基橙溶液的室内自然光降解实验表明,大孔-介孔N-TiO2具有良好的光催化活性,随着嵌段共聚物加入量的增加,样品对甲基橙的降解时间缩短,降解率提高.     

掺杂金属离子改性的TiO2薄膜光催化剂的研制

采用溶胶-凝胶法制备TiO2薄膜光催化剂，着重考察了掺杂铈、镧、钨等金属离子改性的TiO2薄膜的光催化活性，研究了其紫外-可见光透过性能，甲基橙水溶液的光催化降解实验表明：掺杂铈、镧、钨三种金属离子后，TiO2薄膜的光催化活性均有不同程度的提高，最佳掺杂浓度分别为3．0％、1．0％、0．5％，其中掺杂铈的TiO2薄膜光催化活性最高。     

Fe3+掺杂TiO2光催化纤维材料的制备及表征

以棉花纤维为模板制备了一系列Fe3+掺杂的、具有中空纤维结构的TiO2光催化材料(Fe3+/TiO2), 利用热重分析(TG)、扫描电子显微镜(SEM)、X射线衍射(XRD)、zeta电位、红外光谱(IR)和紫外-可见光谱(UV-Vis)等技术对其形貌、晶体结构及表面结构、光吸收特性等进行了表征. 以亚甲基蓝(MB)溶液的脱色降解为模型反应, 考察了不同Fe3+掺杂量的样品在太阳光下的光催化性能. 结果表明, 用模板法制备的Fe3+/TiO2中空纤维结构材料表面存在大量纳米微粒(平均尺寸约12 nm); Fe3+可能均匀分散于锐钛矿结构的TiO2中, 部分取代Ti4+的晶格位置, 既拓宽了TiO2的光谱响应范围, 又形成了TiO2晶体结构的缺陷, 使其表面带负电荷. 在太阳光条件下, 该纤维结构材料较纯TiO2对MB溶液具有更好的光催化脱色降解效果, 且Fe3+的掺入量显著影响该纤维材料的催化性能; 当Fe3+掺杂量为0.15%(w), 在500 ℃焙烧2 h所得中空纤维材料的催化性能最好, 2 h即可使MB溶液的脱色降解率达93%; 重复使用5次仍可使MB溶液的脱色降解率保持在90%以上, 且该催化剂材料易于离心分离去除. 因此, 以该模板合成法, 通过Fe3+的掺杂有望使TiO2成为一种低或无能耗、高活性的绿色环保型催化材料.     

Si掺杂介孔SO2-4/TiO2的非模板剂法合成及表征

在不使用模板剂的条件下,以工业硫酸氧钛溶液为原料合成介孔偏钛酸前驱体,再经正硅酸乙酯浸渍焙烧制备了具有良好热稳定性的Si掺杂介孔SO2-4/TiO2.采用X射线衍射、N2吸附-脱附、扫描电镜、X射线能谱和傅里叶变换红外光谱等表征方法对样品的组成和结构进行了分析,并考察了该材料在亚甲基蓝氧化降解反应中的光催化性能.结果表明,在焙烧过程中,被吸附在偏钛酸孔道内的正硅酸乙酯发生水解,并与偏钛酸孔壁上的自由羟基形成 Ti - O - Si 键;Si进入二氧化钛骨架中,对孔结构起到了支撑作用,从而提高了介孔SO2-4/TiO2的热稳定性.700 ℃焙烧 2 h 后,Si掺杂介孔SO2-4/TiO2材料的比表面积仍达到189 m2/g,平均孔径为2.8 nm.400 ℃焙烧的样品在亚甲基蓝降解反应中表现出较好的光催化活性.     

钇掺杂有序大孔TiO_2微球的制备与光催化性能研究

采用溶胶-凝胶法、胶体晶体模板法制备了钇掺杂有序多孔TiO2微球,利用FTIR,SEM,XRD,XPS,UV-V is分析对其进行表征,并研究钇掺杂前后材料的光催化性能。结果表明:钇掺杂有序多孔TiO2微球规整致密,但局部有孔洞的塌陷。钇掺杂前后有序多孔TiO2微球的晶型没有改变,仍为锐钛矿型。XPS分析发现钇掺杂有序多孔TiO2微球是可行的,材料中含有钇元素含量约为1.0%。UV-V is分析表明钇掺杂使得TiO2吸收光红移至可见光区,甲基橙降解实验显示掺钇有序多孔TiO2微球的光催化性能好于未掺钇TiO2的光催化性能。     

铬和硫共掺杂二氧化钛催化剂的制备及其可见光催化性能

以钛酸四丁酯为前驱体,硝酸铬和硫脲为掺杂离子给体,通过溶胶-凝胶法成功制备了纯TiO2、不同浓度的铬掺杂和铬/硫共掺杂TiO2光催化剂.以靛红为目标污染物,进行了可见光催化降解活性测试实验.结果表明,共掺杂催化剂的活性高于未掺杂和单掺杂催化剂.当共掺杂催化剂含0.60%(原子比)的铬,1.2%(原子比)的硫,焙烧温度为500℃时具有最高的光催化降解活性.X射线衍射、N2吸附、X射线光电子能谱和紫外-可见漫反射吸收光谱表征结果显示,共掺杂催化剂为锐钛矿型,具有较高的比表面积,对可见光有较强的吸收能力.共掺杂TiO2具备较高可见光催化活性的原因可能是铬掺杂降低了TiO2的禁带宽度,拓展了可见光吸收区域,而硫掺杂能够维持体系的电荷平衡,增强催化剂对可见光的吸收.     

微波助离子液体中锌和氮共掺杂TiO2催化剂的制备及微波强化光催化氧化活性

在1-丁基-3-甲基咪唑六氟磷酸盐（[Bmim]PF6）离子液体介质中,采用微波干燥的方法制备了锌和氮共掺杂的TiO2催化剂TiO2-Zn-N,分别采用IR、XRD、SEM、BET对催化剂结构进行了测试和表征。室温条件下,以甲基橙和苯酚溶液为模拟污染物,在微波超声波组合催化合成仪中,分别利用微波辐射（MW）、紫外光照（UV）、微波辐射-紫外光照（MW-UV）和太阳光照射（SL）等降解方式,着重考察了制备条件对TiO2-Zn-N光催化活性的影响。结果表明,在离子液体用量为5.6 mL、Zn掺杂量n(Zn)/n(Ti)=0.015:1、N掺杂量n(N)/n(Ti)=4:1、微波干燥功率350 W、微波干燥时间20 min、煅烧温度700 ℃、煅烧时间2 h的条件下所制得的TiO2-Zn-N催化剂具有较高的光催化活性;在MW、UV、MW-UV和SL四种降解条件下,TiO2-Zn-N对甲基橙的降解率分别为29.6%、95.4%、99.2%和79.2%;并且在前三种降解条件下,甲基橙降解率始终是：MW-UV> UV> MW。这表明在紫外光照条件下,微波辅射具有强化催化剂降解甲基橙的作用。     

Visible light photocatalyst: iodine-doped mesoporous titania with a bicrystalline framework

Iodine-doped (I-doped) mesoporous titania with a bicrystalline (anatase and rutile) framework was synthesized by a two-step template hydrothermal synthesis route. I-doped titania with anatase structure was also synthesized without the use of a block copolymer as a template. The resultant titania samples were characterized by X-ray diffraction, Raman spectroscopy, Fourier transform infrared, nitrogen adsorption, transmission electron microscopy, X-ray photoelectron spectroscopy, and UV-visible absorption spectroscopy. Both I-doped titania samples, with and without template, show much better photocatalytic activity than commercial P25 titania in the photodegradation of methylene blue under the irradiation of visible light (>420 nm) and UV-visible light. Furthermore, I-doped mesoporous titania with a bicrystalline framework exhibits better activity than I-doped titania with anatase structure. The effect of rutile phase in titania on the adsorptive capacity of water and surface hydroxyl, and photocatalytic activity was investigated in detail. The excellent performance of I-doped mesoporous titania under both visible light and UV-visible light can be attributed to the combined effects of bicrystalline framework, high crystallinity, large surface area, mesoporous structure, and high visible light absorption induced by I-doping.     

铽负载介孔二氧化钛的制备、表征和协同效应

以嵌段共聚物P123为模板剂,采用蒸发诱导自组装法制备了铽负载介孔TiO2光催化剂,并利用XRD、N2吸附解吸和UV-Vis吸收光谱等技术手段对样品进行了表征。 制备的样品为锐钛矿和金红石混合晶相,以罗丹明B为模拟有机降解物,样品显示了良好的可见光催化活性。 研究发现0.7%的铽负载和380 ℃的煅烧温度是较佳的制备条件。 介孔结构所具有的高的比表面积、小的晶粒尺寸、铽负载诱导的电荷分离和可见光吸收增强协同提高了光催化活性。 同时,提出了铽负载二氧化钛诱导增强光催化作用的机理。     

超薄骨架有序介孔CdS/NiS的制备及光催化产氢性能

采用有序介孔氧化硅为硬模板, 通过纳米浇筑法制备了由螺旋骨架构建的有序介孔硫化镉(CdS)光 催化材料. 该光催化材料具有约5 nm厚的超薄骨架和大的比表面积(238 m²/g), 能有效缩短光催化反应中 光生电荷迁移到表面进行反应的距离并同时提供更多的反应活性位点, 从而增强光催化性能. 通过原位化学沉积法将不同量的助催化剂硫化镍(NiS)沉积到有序介孔CdS表面, 得到了一系列超薄骨架有序介孔CdS/NiS复合光催化材料. 可见光照射下的光催化产氢活性测试结果表明, 负载适量NiS的有序介孔CdS具有显著增强的光催化产氢活性(3.84 mmol?h^-1?g^-1), 约为负载相同量NiS的普通商业化CdS材料(0.22 mmol?h^-1?g^-1)的17.5倍.     

Preparation,Characterization and Photocatalytic Activity of Fe,La Co-doped Nanometer Titanium Dioxide Photocatalysts

A series of photocatalysts of un-doped, single-doped and co-doped nanometer titanium diox-ide (TiO₂) have been successfully prepared by template method using Fe(NO₃)₃·9H₂O, La(NO₃)₃·6H₂O, and tetrabutyl titanate as precursors and glucan as template. Scanning electron microscopy, X-ray diffraction, and N₂ adsorption-desorption measurement were em-ployed to characterize the morphology, crystal structure and surface structure of the samples. The photo-absorbance of the obtained catalysts was measured by UV-Vis absorption spec-troscopy, and the photocatalytic activities of the prepared samples under UV and visible light were estimated by measuring the degradation rate of methyl orange in an aqueous solu-tion. The characterizations indicated that the prepared photocatalysts consisted of anatase phase and possessed high surface area of ca. 163-176 m²/g. It was shown that the Fe and La co-doped nano-TiO₂ could be activated by visible light and could thus be used as an effective catalyst in photo-oxidation reactions. The synergistic effect of Fe and La co-doping played an important role in improving the photocatalytic activity. In addition, the possibil-ity of cyclic usage of co-doped nano-TiO₂ was also confirmed, the photocatalytic activity of codoped nano-TiO₂ remained above 89.6% of the fresh sample after being used four times.     

高热稳定性有序介孔TiO_2/活性炭制备及其孔-孔协同光催化性能

以十六烷基三甲基溴化铵(CTAB)表面活性剂和钛酸四丁酯分别为造孔模板和钛源,通过超声辅助溶剂挥发自组装技术制备有序介孔氧化钛(ordered mesoporous Ti O2,OMPT)及其活性炭负载体(ordered mesoporous Ti O2/AC,OMPTA).为探讨OMPTA结构与性能之间的关系,采用超声辅助溶胶-凝胶技术合成了无孔氧化钛/活性炭(nonporous Ti O2/AC,NPTA)负载体,利用热重-差热(TG-DTA)、X射线衍射(XRD)、氮气吸附-解吸、透射电子显微镜(TEM)和紫外漫反射(DRS)等手段对制备材料结构进行表征.以酸性红B(acid red B,ARB)的光催化降解为探针实验,评价OMPTA的光催化性能和使用寿命,提出了孔-孔协同光催化扩增机制,并探讨了催化条件(染料浓度、催化剂浓度和溶液p H)对协同扩增效果的影响.结果表明:相对于纯OMPT,OMPTA具有晶粒生长的高活化能、较小的粒径尺寸和对有序介孔结构的高热稳定性,这归功于活性炭的吸附力和非晶相层对晶粒生长的阻碍作用.由于孔-孔协同光催化扩增效应,导致OMPTA在NPTA、OMPT-AC、OMPT、P25和NPT中具有更高的催化活性.热处理温度强烈影响OMPTA的光催化活性,其中OMPTA-500具有最高的光催化活性,这归功于其具备完善的结晶性、相对高浓度的羟基和Ti3+离子.同时,OMPTA-500在重复使用过程中也具有很高的光催化性能.当使用OMPTA-500为催化剂对ARB降解时,最佳的催化条件为催化剂浓度1 g/L,ARB浓度15 mg/L,p H 5.     

Preparation,Characterization and Photocatalytic Activity of Lanthanum Doped Mesoporous Titanium Dioxide

Lanthanum doped mesoporous titanium dioxide photocatalysts with different La content were synthesized by template method using tetrabutyltitanate (Ti(OC₄H₉)₄) as precursor and Pluronic P123 as template. The catalysts were characterized by thermogravimetric dif-ferential thermal analysis, N₂ adsorption-desorption measurements, X-ray diffraction, and UV-Vis adsorption spectroscopy. The effect of La³⁺ doping concentration from 0.1% to 1% on the photocatalytic activity of mesoporous TiO₂ was investigated. The characterizations indicated that the photocatalysts possessed a homogeneous pore diameter of about 10 nm with high surface area of 165 m²/g. X-ray photoelectron spectroscopy measurements in-dicated the presence of C in the doped samples in addition to La. Compared with pure mesoporous TiO₂, the La-doped samples extended the photoabsorption edge into the visible light region. The results of phenol photodecomposition showed that La-doped mesoporous TiO₂ exhibited higher photocatalytic activities than pure mesoporous TiO₂ under UV and visible light irradiation.     

Synergistic effects of sulfation and Fe-doping on the photocatalysis of titania

Fe-doped sulfated titania photocatalysts were prepared by one-step thermal hydrolysis of industrial titanyl sulfate and characterized using XRD, FT-IR, UV–Vis DRS, and N₂ adsorption–desorption techniques. The effects of the volume ratio of pre-adding water to TiOSO₄ on the structure of the titania photocatalysts were investigated. The photocatalytic activities of Fe-doped sulfated titania samples were evaluated using the photooxidation of methylene blue in aqueous solutions under UV light irradiation. The results indicate that Fe-doping induces the red shift of the absorption edge to the visible light range. Meanwhile, sulfur species in the form of sulfate are incorporated into the network of Ti–O–Ti and coordinated to titania in bidentate models, which can effectively promote the separation of the photogenerated electrons and holes. Synergistic effects of both are beneficial for improving the photocatalytic activity of the Fe-doped sulfated titania photocatalysts.     

Photocatalytic Decomposition of 2，4-Dichlorophenoxyacetic Acid over Amorphous Titania Modified Pt（IV）under Visible Light

Amorphous microporous metal oxides of titanium（AMM-Ti）which can induce photocatalytic reactions under visible light irradiation was prepared by using Na2PtCl6 according to the sol-gel procedure affording high specific surface areas of 160-200 m2/g. The most active photocatalysts contained 3.0% P（t Ⅳ）. According to extended X-ray absorption fine structure（EXAFS）results,isolated PtCl4 molecules were homogeneously distributed in an almost exclusively amorphous matrix of titania. During the photocatalytic degradation of 2,4-dichlorophenoxyacetic acid（2,4-D）in aqueous solution containing a suspension of AMM-Ti,it was found that 2,4-dichlorophenol was the major intermediate. The initial rate of photo-degradation was studied as a function of the initial concentration of reactants by the linearised form of the Langmuir-Hinshelwood equation,by which rate constants k and equilibrium adsorption constants K were evaluated. The postulated charge separation mechanism at Pt （Ⅳ）/ AMM-Ti and photocatalytic degradation mechanism of 2,4-D were also proposed.     

Preparation and photocatalytic activity of nonmetal Co-doped titanium dioxide photocatalyst

A series of boron and sulfur co-doped titanium dioxide (TiO₂) photocatalysts were prepared by a sol-gel method using boric acid, thiourea and tetrabutyl titanate [Ti(OC₄H₉)₄] as precursors. The photoabsorbance of as-prepared photocatalysts was measured by UV–Vis diffuse reflectance spectroscopy (DRS), and its microstructure was characterized by scanning electron microscopy (SEM), X-ray diffraction (XRD) and N₂ adsorption-desorption measurements. The prepared photocatalysts consisted of the anatase phase mainly in the form of spherical particles. The photocatalytic performance was studied by photodegradation of methyl blue (MB) in water under UV and visible light irradiation. The calcination temperature and the codoping content influenced the photoactivity. The synergistic effect of boron and sulfur co-doping played an important role in improving the photocatalytic activity. In addition, the possibility of cyclic usage of codoped TiO₂ was also confirmed, the photocatalytic activity of TiO₂ remained above 91% of that of the fresh sample after being used four times. It was shown that the co-doped TiO₂ could be activated by visible light and could thus be potentially applied for the treatment of water contaminated by organic pollutants.     

非金属元素掺杂及三维花状多级结构对介孔TiO_2可见光催化性能的促进作用

分别以尿素和葡萄糖为氮源和碳源,在温和条件下合成了具有三维花状多级结构的氮/碳掺杂二氧化钛.研究了非金属元素掺杂及三维花状多级结构对介孔TiO_2可见光催化性能的促进作用,结果表明,二者在增强TiO_2在可见光区域的吸收和提高TiO_2材料的光催化活性方面起到了协同促进的作用.