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2.
本文首次用X-光电子能谱(XPS)技术研究了H_2C_2O_4溶液中钛基的腐蚀行为, 对Ti基片的表面和界面进行了XPS表征. 实验结果表明:Ti基在80 ℃, 10%的草酸溶液中腐蚀两小时, 样品的表面只有Ti~0和TiO存在; 经过四小时腐蚀的样品表面主要是TiO_2和少部分Ti~(2+). 这与X-衍射分析认为有TiH_(1.042)的结构看法相符。同时, Ti0_2与表面涂层RuO_2都属金红石型结构, 因而完全有可能形成牢固的金属阳极材料。  相似文献   

3.
采用光催化还原法制备了高活性的载银二氧化钛光催化剂,并用XRF、TEM、XRD及XPS、UV-Vis方法对催化剂进行了表征.考察了负载Ag的含量、催化剂制备时间、搅拌气体的种类以及Fe2+的添加等条件对该催化剂光催化水体脱氮活性的影响.结果表明:载银量1.0%时去除效果最佳;制备催化剂时光照时间不充分会使催化剂失去还原效力;氮气保护下催化剂反应活性更高;Fe2+的加入利于光催化反应;2 h光催化含氨氮和亚硝基氮的水样,总脱氮率达到了63.9%.  相似文献   

4.
利用柠檬酸络合法制备了SrFe(Cu,Ti)O_(3-δ)混合导体透氧材料. 采用XRD、O_2-TPD、H_2-TPR、SEM等测试技术考察了材料的稳定性. 结果表明,SrFe_(0.7)Cu_(0.3)O_(3-δ)在低氧压下会发生相分解,产生SrCuO__2杂相,而掺杂Ti后的SrFe_(0.6)Cu_(0.3)Ti_(0.1)O_(3-δ)在低氧压下保持单一的钙钛矿结构. H_2-TPR和O_2-TPD的测试表明,Ti~(4+)的掺杂提高了材料的氧脱附起始温度和其它金属离子的还原温度. SrFe_(0.6)Cu_(0.3)Ti_(0.1)O_(3-δ)膜在透氧过程中,会有Cu~(2+)和Sr~(2+)从钙钛矿结构中析出,在原晶粒边界形成新的小晶粒,但这种轻微的组分偏析没有影响到材料的透氧量,此透氧膜在66 h的操作过程中显示了良好的稳定性.  相似文献   

5.
Platinum (Pt) is recognized as an excellent cocatalyst which not only suppresses the charge carrier recombination of the photocatalyst but also reduces the overpotential for photocatalytic H2 generation. Albeit of its good performance, the high cost and low abundance restricted the utilization of Pt in large-scale photocatalytic H2 generation. Pt based transition metal alloys are demonstrated to reveal enhanced activities towards various catalytic reactions, suggesting the possibility to substitute Pt as the cocatalyst. In the present work, Pt was partially substituted with Co, Ni, and Fe and Pt-M (M = Co, Ni, and Fe)/g-C3N4 composites were constructed through co-reduction of H2PtCl6 and transition metal salts by the reductant of ethylene glycol. The crystal structure and valence states were measured by X-ray diffractometer (XRD) and X-ray photoelectron spectrometer (XPS), respectively. The higher degree of XRD peaks and larger binding energies for Pt 4f5/2 and Pt 4f7/2 after incorporating Co2+ ions indicated that Co was successfully introduced into the lattice of Pt and Pt-Co bimetallic alloys was attained through the solvothermal treatment. The morphology was subsequently observed by transmission electron microscope (TEM), which showed a good dispersion of Pt-Co nanoparticles on the surface of g-C3N4. Meanwhile, the shrinkage of lattice fringe after introducing cobalt salt further confirmed the presence of Pt-Co bimetallic alloys. The UV-Vis absorption spectra of g-C3N4 and Pt, Pt-Co deposited g-C3N4 were subsequently performed. It was found that the absorption edges were all consistent for all three samples as anticipated, implying that the band gap energy was maintained after hybridizing with Pt or Pt-Co alloys. Furthermore, the photocatalytic H2 generation was carried out over the as-prepared composites with triethanolamine (TEOA) as sacrificial reagent. Under visible-light illumination, the1% (w) Pt2.5M/g-C3N4 (M = Co, Fe, Ni) composites all exhibited higher or comparable activity towards photocatalytic H2 generation when compared to 1% (w) Pt loaded counterpart. In addition, the atomic ratios of Pt/Co and the loading amount of Pt-Co cocatalyst were modified to optimize the photocatalytic performance, among which, 1% (w) Pt2.5Co/g-C3N4 composite revealed the highest activity with a 1.6-time enhancement. Electrochemical impedance spectra (EIS) and photoluminescence (PL) spectra indicated that the enhancement might be attributed to improved charge transfer from g-C3N4 to Pt2.5Co cocatalyst and inhibited charge carrier recombination in the presence of Pt2.5Co cocatalyst. Therefore, the present study demonstrates the great potential to partially replace Pt with low-cost and abundant transition metals and to fabricate Pt based bimetallic alloys as promising cocatalysts for highly efficient photocatalytic H2 generation.  相似文献   

6.
本文用水作为分散介质,掺杂一定量的ZnO于Bi_4Ti_3O_(12)中,采用高能球磨法制备了异质结型光催化剂ZnO/Bi_4Ti_3O_(12).利用UV-Vis、XRD、SEM和PL等仪器对样品进行了分析与表征.以375 W中压汞灯为光源,通过对亚甲基蓝的氧化来研究其光催化活性.结果表明,对于光氧化亚甲基蓝(MB),异质结型光催化剂ZnO/Bi_4Ti_3O_(12)光催化活性高于钛酸铋的光催化活性.当ZnO的掺杂量分别是0.0和0.5wt.%,异质结型光催化剂ZnO/Bi_4Ti_3O_(12)对亚甲基蓝光氧化率分别达到50.2和80.3 %.  相似文献   

7.
作为影响光催化反应的关键因素,光催化剂的活性位点数量直接决定了光催化活性.传统石墨相氮化碳(g-C3N4)由于活性位点不足而表现出较弱的光催化活性.为了增加g-C3N4的活性位点数量,研究人员采取了各种策略,包括杂原子掺杂、表面改性和空位工程.其中,表面改性是增加催化剂活性位点的有效策略之一.氰基具有很强的吸电子能力,可在光催化反应中作为活性位点.然而,关于氰基作为CO2光还原活性位点的研究并不多,特别是对于氰基修饰增强g-C3N4活性的机理尚不清楚.构建多孔结构是暴露催化剂活性位点的有效措施之一.多孔结构可以有效改善纳米片的团聚,促进活性位点暴露,增大反应物与活性位点间的接触机会;并且相互连接的多孔网络可形成独特的传输通道,进一步促进载流子迁移.本文通过分子自组装和碱辅助策略合成了氰基改性的多孔g-C3N4纳米片(MCN-0.5).氰基由于具有良好的吸电子特性,促进了局部载流子分离,并充当了光催化反应的活性位点.受益于活性位点的影响,MCN-0.5表现出显著增强的光催化CO2还原活性.在不添加牺牲剂和助催化剂的条件下,MCN-0.5样品上CO和CH4产率达到13.7和0.6μmol·h–1·g–1,分别是传统煅烧法制备的g-C3N4(TCN)产生CO和CH4产率的2.5和2倍.通过盐酸处理MCN-0.5除去氰基,并没有破坏样品的形貌结构,但催化剂的光催化活性显著降低,证实了氰基活性位点的作用.光还原Pt纳米颗粒的实验结果表明,与对照样品相比,氰基修饰的样品上还原的Pt纳米颗粒更多,进一步证实了引入氰基为光还原反应提供了更多活性位点.CO2等温吸附测试结果表明,MCN-0.5对CO2的吸附能力不如对照样品,间接证明氰基能成为活性位点是由于其良好的吸电子能力促进了局部载流子分离.瞬态荧光光谱、光电化学表征结果表明,氰基修饰增强了载流子迁移和分离能力.根据理论计算和原位红外光谱提出了氰基修饰增强g-C3N4光催化还原CO2活性的作用机理.以三聚氰胺为前驱体接枝氰基的g-C3N4也表现出比体相g-C3N4明显增强的光催化还原CO2活性,这证明了氰基改性增强g-C3N4活性策略的通用性.本文通过在光催化剂材料中设计活性位点为太阳能高效转化提供了一个有效途径.  相似文献   

8.
作为影响光催化反应的关键因素,光催化剂的活性位点数量直接决定了光催化活性.传统石墨相氮化碳(g-C3N4)由于活性位点不足而表现出较弱的光催化活性.为了增加g-C3N4的活性位点数量,研究人员采取了各种策略,包括杂原子掺杂、表面改性和空位工程.其中,表面改性是增加催化剂活性位点的有效策略之一.氰基具有很强的吸电子能力,可在光催化反应中作为活性位点.然而,关于氰基作为CO2光还原活性位点的研究并不多,特别是对于氰基修饰增强g-C3N4活性的机理尚不清楚.构建多孔结构是暴露催化剂活性位点的有效措施之一.多孔结构可以有效改善纳米片的团聚,促进活性位点暴露,增大反应物与活性位点间的接触机会;并且相互连接的多孔网络可形成独特的传输通道,进一步促进载流子迁移.本文通过分子自组装和碱辅助策略合成了氰基改性的多孔g-C3N4纳米片(MCN-0.5).氰基由于具有良好的吸电子特性,促进了局部载流子分离,并充当了光催化反应的活性位点.受益于活性位点的影响,MCN-0.5表现出显著增强的光催化CO2还原活性.在不添加牺牲剂和助催化剂的条件下,MCN-0.5样品上CO和CH4产率达到13.7和0.6μmol·h–1·g–1,分别是传统煅烧法制备的g-C3N4(TCN)产生CO和CH4产率的2.5和2倍.通过盐酸处理MCN-0.5除去氰基,并没有破坏样品的形貌结构,但催化剂的光催化活性显著降低,证实了氰基活性位点的作用.光还原Pt纳米颗粒的实验结果表明,与对照样品相比,氰基修饰的样品上还原的Pt纳米颗粒更多,进一步证实了引入氰基为光还原反应提供了更多活性位点.CO2等温吸附测试结果表明,MCN-0.5对CO2的吸附能力不如对照样品,间接证明氰基能成为活性位点是由于其良好的吸电子能力促进了局部载流子分离.瞬态荧光光谱、光电化学表征结果表明,氰基修饰增强了载流子迁移和分离能力.根据理论计算和原位红外光谱提出了氰基修饰增强g-C3N4光催化还原CO2活性的作用机理.以三聚氰胺为前驱体接枝氰基的g-C3N4也表现出比体相g-C3N4明显增强的光催化还原CO2活性,这证明了氰基改性增强g-C3N4活性策略的通用性.本文通过在光催化剂材料中设计活性位点为太阳能高效转化提供了一个有效途径.  相似文献   

9.
Zn-doped Ga(2)O(3) samples were prepared by a homogeneous precipitation (HP) method, and the local structures of Zn ions and their photocatalytic activities for hydrogen production were examined. In the sample with low doping amount, the Zn(2+) ions substituted for the Ga(3+) ions in the Ga(2)O(3) photocatalyst and enhanced the photocatalytic activity, since they would improve the migration of the photoexcited electrons in the conduction band of the Ga(2)O(3) photocatalyst. In the sample with high doping amount, the Zn ions formed a composite ZnGa(2)O(4) phase in the bulk of the Ga(2)O(3) photocatalyst to decrease the photocatalytic activity in the present reaction.  相似文献   

10.
太阳能是一种清洁的可再生能源,其中,可见光占太阳能总能量的45%。发展可见光响应的光催化剂是光催化领域重要的研究内容之一。NH2-MIL-125(Ti)是一种有代表性的金属有机骨架可见光催化剂,但其存在可见光利用效率不高、光生电子-空穴对复合快等缺点。近年来,研究者们通过对NH2-MIL-125(Ti)的晶面、结构和组成进行调控和修饰,提高其可见光催化活性。本文对近年来报道的关于提高NH2-MIL-125(Ti)可见光催化活性的方法进行了综述,并对NH2-MIL-125(Ti)基可见光催化剂的发展方向提出了建议,以期为NH2-MIL-125(Ti)在光催化反应中进一步应用研究提供参考。  相似文献   

11.
石墨相氮化碳(g-C3N4)是一种新型的有机半导体材料,具有独特的层状结构、合适的能带位置、简单的制备方法以及出色的稳定性等特点,因而被广泛应用于光催化产氢领域.但是,较高的光生载流子的复合率和受限的迁移率大大地限制了g-C3N4的光催化产氢性能.目前,大量的研究证实块状g-C3N4的液相剥离、表面改性、元素掺杂、与其他半导体复合构筑异质结以及负载助催化剂等方法可以在一定程度上提高g-C3N4的光催化产氢性能.但是单一的g-C3N4改性方法往往并不能获得最理想的光催化产氢性能,因此,本文采用低温磷化法制备了二价钴(Co(II))修饰的磷(P)掺杂的g-C3N4纳米片(Co(II)/PCN),同时实现了掺杂P原子和负载空穴助催化剂Co(II),该催化剂表现出出色的光催化产氢性能.在光催化制氢过程中,铂(Pt)纳米颗粒作为电子助催化剂成功的负载在Co(II)/PCN上.光催化实验结果表明,最佳的Pt/Co(II)/PCN复合材料光催化产氢速率达到774μmol·g^?1·h^?1,比纯相的g-C3N4纳米片(89.2μmol·g^?1·h^?1)提升8.6倍.同时优化的光催化剂具有良好的光催化稳定性,并在402 nm处具有2.76%的量子产率.XRD,TEM,STEM-EDX和AFM结果证明,成功制备了纳米片状形貌的g-C3N4及其复合材料,催化剂中均匀的分布着Co和P元素.通过XPS证明了P-N的存在以及Co(II)的存在,并且Co(II)是以一种无定型的CoOOH的形式吸附在g-C3N4表面.光照后的TEM证明Pt颗粒成功的负载在Co(II)/PCN表面.UV-vis DRS表明,由于P的掺杂以及Co(II)的修饰,Co(II)/PCN相比于g-C3N4纳米片在可见光区域光吸收有了明显的增强.通过稳态和瞬态光致发光光谱分析,同时结合电化学分析表征(i-t、EIS)以及电子顺磁共振技术分析,证实了Co(II)/PCN高效光催化性能的原因可能是由于更高效的光生载流子分离效率.本文对Pt/Co(II)/PCN可能的光催化增强机理提出了设想.P的掺杂可以优化g-C3N4的电子结构,提高其光生载流子分离效率.而以Pt作为电子助催化剂,可以有效地捕获P掺杂的g-C3N4导带中的光生电子,进而发生水还原产氢反应;以Co(II)作为空穴助催化剂,可以捕获价带中的光生空穴,进而发生三乙醇胺氧化反应.通过采用不同功能的助催化剂,实现P掺杂g-C3N4光生电子空穴的定向分流,促进了P掺杂g-C3N4的光生载流子的分离,从而提高催化剂的光催化产氢性能.本文可以为设计具有空穴-电子双助催化剂的光催化产氢系统提供一个新的思路.  相似文献   

12.
Pt/TiO2光催化氧化还原耦合反应脱除水中无机氮   总被引:6,自引:0,他引:6       下载免费PDF全文
本文采用光催化还原法制备了高活性的载铂二氧化钛光催化剂,并用XRF、TEM、XRD对样品进行了表征,考察了pH值、负载Pt的含量、Fe2+的添加及保护气的种类等反应条件对该催化剂活性的影响。结果表明:碱性条件下利于氨氮、亚硝酸氮的耦合脱氮反应,载铂量0.5%时去除效果最佳,Fe2+的加入利于光催化反应,氮气保护下催化剂反应活性更高。  相似文献   

13.
铂非均匀掺杂二氧化钛薄膜的光催化性能   总被引:10,自引:0,他引:10  
采用溶胶-凝胶法制备了铂非均匀掺杂的二氧化钛薄膜, 并用UV-vis分光光度计及电化学工作站表征了薄膜的光吸收性能和光电化学行为, 通过对甲基橙的光催化降解动力学来表征催化剂的光催化活性. 结果表明 Pt非均匀掺杂可以明显增强二氧化钛的光催化活性, 而均匀掺杂的效果较差; Pt非均匀掺杂的最佳量为0.3 mol%. 催化剂薄膜的电化学行为显示: Pt非均匀掺杂二氧化钛薄膜的开路电压高, 交流阻抗小. 并从半导体的PN结原理探讨了Pt非均匀掺杂二氧化钛的催化活性机理.  相似文献   

14.
Co3O4/BiVO4 composite photocatalyst with a p-n heterojunction semiconductor structure has been synthesized by the impregnation method. The physical and photophysical properties of the composite photocatalyst have been characterized by X-ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS), transimission electron microscopy (TEM), BET surface area, and UV-visible diffuse reflectance spectra. Co is present as p-type Co3O4 and disperses on the surface of n-type BiVO4 to constitute a heterojunction composite. The photocatalyst exhibits enhanced photocatalytic activity for phenol degradation under visible light irradiation. The highest efficiency is observed when calcined at 300 degrees C with 0.8 wt % cobalt content. On the basis of the calculated energy band positions and PL spectra, the mechanism of enhanced photocatalytic activity has been discussed.  相似文献   

15.
半导体光催化剂TiO2因具有绿色环保无污染、化学稳定性好及可实现稳定产氢等优点而广泛应用于光解水、废水处理和空气净化等领域.然而,锐钛矿相TiO2禁带宽度约为3.2 eV,仅对紫外光响应.而在太阳光中,44%左右为可见光,紫外光仅占不到4%.为了提高TiO2对太阳光的利用率和在可见光照射下的光催化活性,近年来人们采用掺杂金属/非金属离子以及与可见光催化剂复合等方法对TiO2进行改性.但是这些离子掺杂的方法会不可避免地在TiO2晶格中形成结构缺陷,这些结构缺陷作为光生电子和空穴的复合中心不利于电子和空穴分离.最近研究表明,通过Ti3+自掺杂可以很好提高TiO2可见光催化活性,但是目前制备Ti3+掺杂TiO2的方法较复杂,形成的Ti3+掺杂易在表面积聚而被进一步氧化,影响其光催化稳定性,不利于实际应用.因此,开发具有良好电子-空穴分离效率的可见光催化剂引起了广泛的研究兴趣.本文通过原位自掺杂Ti3+来提高TiO2可见光光催化活性.以TiCl3为钛源, H2O为溶剂, F127为软模板,采用溶剂挥发诱导自组装的方法制备了蠕虫状Ti3+自掺杂的介孔TiO2.采用X射线衍射(XRD)、N2物理吸附、紫外-可见漫反射(UV-vis)、透射电子显微镜和电子顺磁共振(EPR)对所制备样品结构、结晶度和形貌等进行了表征分析.通过控制表面活性剂用量和焙烧温度优化了Ti3+自掺杂介孔TiO2的光催化活性.结果表明,在模拟太阳光照射下,所制样品对气相光催化氧化NO和水相降解有机染料亚甲基蓝表现出优异的催化性能和稳定性. Ti3+自掺杂介孔TiO2有效扩展了催化剂的光吸收范围,提高了光生电子空穴的迁移效率.其优异的光催化活性和稳定性主要归因于掺杂在TiO2骨架中的Ti3+和所合成催化剂多孔性之间的协同效果.固体UV-vis结果表明,所合成的TiO2具有很好的可见光响应,主要归因于在TiO2材料合成过程中,部分Ti3+未被完全氧化, Ti3+掺入可以有效降低TiO2的禁带宽度.通过计算可知合成的TiO2禁带宽度为2.7 eV.通过低温EPR测试进一步证明了Ti3+的存在,而且Ti3+主要掺杂在TiO2体相中. N2物理吸附结果表明,随焙烧温度不断提高,所得产物的比表面积先增加后减少,当焙烧温度在500 oC时,比表面积最大,但至550 oC时,比表面积、孔径和孔体积增大,表明催化剂的孔结构被破坏.表面活性剂F127的用量对样品比表面积和孔径大小也有影响,当其用量为0.54 g时,所得产物的比表面积最大.我们将所合成的TiO2应用于污染气体NO的氧化,考察了焙烧温度和表面活性剂用量对光催化剂性能的影响.结果表明,当表面活性剂用量为0.54 g,焙烧温度为500oC时,所制催化剂在模拟太阳光和可见光照射下都表现出最好的NO去除转化率.将使用过的催化剂离心洗涤后进行连续反应3.5 h,依然保持很高的NO去除转化率.催化剂高活性及稳定性的主要原因是Ti3+的掺杂将TiO2光响应范围拓展到可见光区域,且Ti3+掺杂和介孔结构之间的协同作用有利于促进光生电子和空穴的分离.当催化剂在低于500 oC焙烧时,所得催化剂结晶度较低,不利于光生电子-空穴的分离,而高温焙烧则会导致催化剂介孔结构遭到破坏,不利于NO气体吸附和产物脱附.表面活性剂对催化剂活性影响较小,在可见光照射下催化剂均表现出很好的光催化活性.此外,该Ti3+自掺杂介孔TiO2在液相条件下对有机染料亚甲基蓝也表现出很好的去除效果,可见光照射2 h,亚甲基蓝去除率接近100%.  相似文献   

16.
Nanocrystalline Ce(1)(-)(x)Ti(x)O(2) (0 < or = x < or = 0.4) and Ce(1-)(x)(-)(y)Ti(x)Pt(y)O(2)(-)(delta) (x = 0.15, y = 0.01, 0.02) solid solutions crystallizing in fluorite structure have been prepared by a single step solution combustion method. Temperature programmed reduction and XPS study of Ce(1)(-)(x)Ti(x)O(2) (x = 0.0-04) show complete reduction of Ti(4+) to Ti(3+) and reduction of approximately 20% Ce(4+) to Ce(3+) state compared to 8% Ce(4+) to Ce(3+) in the case of pure CeO(2) below 675 degrees C. The substitution of Ti ions in CeO(2) enhances the reducibility of CeO(2). Ce(0.84)Ti(0.15)Pt(0.01)O(2)(-)(delta) crystallizes in fluorite structure and Pt is ionically substituted with 2+ and 4+ oxidation states. The H/Pt atomic ratio at 30 degrees C over Ce(0.84)Ti(0.15)Pt(0.01)O(2)(-)(delta) is 5 and that over Ce(0.99)Pt(0.01)O(2)(-)(delta) is 4 against just 0.078 for 8 nm Pt metal particles. Carbon monoxide and hydrocarbon oxidation activity are much higher over Ce(1-)(x)(-)(y)Ti(x)Pt(y)O(2) (x = 0.15, y = 0.01, 0.02) compared to Ce(1)(-)(x)Pt(x)O(2) (x = 0.01, 0.02). Synergistic involvement of Pt(2+)/Pt degrees and Ti(4+)/Ti(3+) redox couples in addition to Ce(4+)/Ce(3+) due to the overlap of Pt(5d), Ti(3d), and Ce(4f) bands near E(F) is shown to be responsible for improved redox property and higher catalytic activity.  相似文献   

17.
Herein, Pt‐decorated TiO2 nanocube hierarchy structure (Pt‐TNCB) was fabricated by a facile solvothermal synthesis and in‐situ photodeposition strategy. The Pt‐TNCB exhibits an excellent solar‐driven photocatalytic hydrogen evolution rate (337.84 μmol h?1), which is about 37 times higher than that of TNCB (9.19 μmol h?1). Interestingly, its photocatalytic property is still superior to TNCB with post modification Pt (1 wt %) (208.11 μmol h?1). The introduction of Pt efficiently extends the photoresponse of the composite material from UV to visible light region, simultaneously boosting their solar‐driven photocatalytic performance, which attribute to the porous structure, the sub size TNCB, the SPR effect of Pt NPs and strong interaction of two components. In fact, Pt NPs can enhance collective oscillations on delocalized electrons, which is conducive to capture electrons and hinder the recombination of photogenerated electron‐hole pairs, leading to the longer lifetime of photogenerated charges. The fabrication of Pt‐TNCB photocatalyst with SPR effect may provide a promising method to improve visible‐light photocatalytic activities for traditional photocatalysts.  相似文献   

18.
Transition-metal-doped titanium glycolates (M-TG, with M=Fe, Mn), which are the first non-stoichiometric heterometal alkoxides, have been synthesised through a solvothermal doping approach. X-ray diffraction, UV/Vis diffuse reflectance and ESR spectroscopy revealed that the dopant ion (Fe(3+) or Mn(2+)) is substituted for Ti(4+) in the TG lattice. Fe(3+) prolongs the crystallisation time of Fe-TG, whereas Mn(2+) has a smaller effect on the crystallisation time in comparison with Fe(3+). The as-synthesised M-TG materials were used directly as single-source precursors for the preparation of metal-doped titania (M-TiO(2)) through a simple thermal treatment process. The as-prepared M-TiO(2) materials maintain the rod-like morphology of the precursors and possess a mesoporous structure with high crystallinity. It has been proved that the dopant ions are incorporated into the TiO(2) lattice at the Ti(4+) positions. The photocatalytic activities of the M-TiO(2) materials obtained were evaluated by testing the degradation of phenol under UV irradiation. From the photocatalytic results, it was concluded that high crystallinity, a large surface area and appropriate transition-metal-doping are all beneficial to the enhancement of the photocatalytic performance of the doped TiO(2) material. In addition, it was noted that in comparison with Mn-TiO(2), Fe-TiO(2) shows higher photocatalytic activity due to the better inhibition effect of Fe(3+) on recombination of photogenerated electron-hole pairs. In contrast to the conventional nanosized TiO(2) photocatalyst, the micrometre-sized M-TiO(2) particles we obtained can be easily separated and recovered after the photocatalytic reactions.  相似文献   

19.
纳米TiO2-Pt修饰电极的制备及其电催化活性   总被引:6,自引:0,他引:6  
循环伏安;纳米TiO2-Pt修饰电极的制备及其电催化活性  相似文献   

20.
本文从应用意图出发,采用CdS、混Pt/CdS和镀Pt/CdS三种光催化剂,研究(1)反应温度,(2)催化剂表面含Pt量,(3)修饰方法和催化剂表面结构形貌对光催化SO2水溶液生成H2SO4同时放H2反应的活性和选择性的影响。结果表明:(1)本反应有明显温度效应,利用太阳能中约占50%的红外段辐射来提高反应温度到70℃可使活性增至7倍,但选择性下降,(2)估算了反应活化能为21kJ·mol-1,(3)得出60℃为反应较佳温度,(4)表面含Pt量在5%左右活性最高,(5)混Pt/CdS体系形成高分散、细颗粒分布,其催化活性比镀Pt/CdS体系为高。根据实验结果对反应机理进行了一些讨论。  相似文献   

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