铂非均匀掺杂二氧化钛薄膜的光催化性能

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.     

The effects of some operational parameters in photodegradation of benzylamine and aniline and their kinetics in aqueous suspension of TiO2 and Pt -loaded TiO2

Photocatalytic degradation of benzylamine and aniline on TiO2, Pt-modified TiO2, ZnO and ZnS in aqueous solution has been investigated. The degradation of the compounds follows a pseudo-first-order kinetics according to Langmuir-Hinshelwood model. The degradation process of benzylamine and aniline was evaluated by ninhydrin spectrophotometric method using UV-visible spectrophotometer in lambda(max) = 538 and 525 nm, respectively. The results showed the order of Pt/TiO2 > TiO2 > ZnO > ZnS for photocatalytic activity. In addition increasing of the Pt-loading was found to enhance the degradation rate of the compounds up to the optimal amount of 5 wt. % onto the surface of TiO2 so that the rates of degradation were increased about two times. Rate constants for photodegradation of benzylamine and aniline were found to be 1.4 x 10(-3) min(-1) and 0.7 x 10(-3) min(-1) for TiO2 as photocatalyst, while 2.7 x 10(-3) min(-1) and 1.7 x 10(-3) min(-1) for (5 wt.%) Pt/TiO2 as photocatalyst. Running the reactions in various pH (5-11), indicated that the pH = 8 and 10 or Higher are the optimum pH for photocatalytic degradation of benzylamine and aniline respectively. The effects of some other parameters such as amount of photocatalyst, flux of oxygen and irradiation time were evaluated. Furthermore, the Langmuir-Hinshelwood rate constant k(r) and adsorption constant K(A) for the titled compounds are reported.     

以膨胀珍珠岩为载体的漂浮型TiO2光催化剂降解水面浮油

 以膨胀珍珠岩为载体制备了漂浮负载型TiO2光催化剂,并对制备催化剂的工艺条件及水面浮油的光催化降解过程进行了初步研究．通过扫描电镜分析及BET比表面积和TiO2负载量测定,对影响负载型光催化剂漂浮性能的因素进行了分析．以癸烷为水面模拟污染物,考察了其在日光照射下的降解效率．用气相色谱法测定了经不同时间光照后癸烷的残留量,经7h光照后能降解癸烷95％以上．实验结果表明,以膨胀珍珠岩为载体,可制得能长期漂浮于水面的负载型TiO2光催化剂,通过浮油富集和光催化降解机制可对水面浮油进行有效的治理．     

球磨法制备复合光催化剂Bi12TiO20/ZnO及其光催化性能

本文用水作为分散介质,采用球磨法掺杂一定量的Bi₁₂TiO₂₀于ZnO中制备复合光催化剂Bi₁₂TiO₂₀/ZnO. 利用UV-Vis、XRD和SEM等仪器对样品进行了分析与表征. 通过对甲基橙的氧化来研究其光催化活性. 结果表明,光催化剂Bi₁₂TiO₂₀/ZnO对甲基橙氧化的催化活性高于氧化锌的催化活性.当Bi₁₂TiO₂₀的掺杂量为0.5%(质量分数),球磨时间为12 h,焙烧温度为300℃时,光照20 min后,复合光催化剂Bi₁₂TiO₂₀/ZnO对甲基橙的降解率可达到95.2%.     

Visible light active platinum-ion-doped TiO2 photocatalyst

Platinum-ion-doped TiO2 (Pt(ion)-TiO2) was synthesized by a sol-gel method, and its visible light photocatalytic activities were successfully demonstrated for the oxidative and reductive degradation of chlorinated organic compounds. Pt(ion)-TiO2 exhibited a yellow-brown color, and its band gap was lower than that of undoped TiO2 by about 0.2 eV. The flat band potential of Pt(ion)-TiO2 was positively shifted by 50 mV compared with that of undoped TiO2. X-ray absorption spectroscopy and X-ray photoelectron spectroscopy analyses showed that the Pt ions substituted in the TiO2 lattice were present mainly in the Pt(IV) state with some Pt(II) on the sample surface. Pt(ion)-TiO2 exhibited higher photocatalytic activities than undoped TiO2 under UV irradiation as well. The visible light activity of Pt(ion)-TiO2 was strongly affected by the calcination temperature and the concentration of Pt ion dopant, which were optimal at 673 K and 0.5 atom %, respectively. Under visible irradiation, Pt(ion)-TiO2 degraded dichloroacetate and 4-chlorophenol through an oxidative path and trichloroacetate via a reductive path. The activity of Pt(ion)-TiO2 was not reduced when used repeatedly under visible light. However, visible-light-illuminated Pt(ion)-TiO2 could not degrade substrates such as tetramethylammonium and trichloroethylene, which are degraded with UV-illuminated TiO2. The characteristics and reactivities of Pt(ion)-TiO2 as a new visible light photocatalyst were investigated in various ways and discussed in detail.     

污染物甲醛为电子给体Pt/TiO2光催化制氢

研究了甲醛为电子给体在Pt/TiO2上光催化生成氢的反应。甲醛经光催化降解产生CO2和甲酸，甲酸可进一步被氧化；甲醛的光催化降解与放氢同时发生，催化剂的最佳Pt负载量为0．5％，甲醛浓度对反应的影响，表观上符合Langmuir-Hinshelwood关系式；碱性条件有利于该反应；在甲醛浓度较低时，甲醇的存在能部分地提高放氢速率，并讨论了可能的反应机理。     

铂负载二氧化钛光催化剂在单波长下苯乙炔高选择性加氢（英文）

苯乙烯是一种非常重要的化工原料,它是工业上生产聚苯乙烯、树脂和丁苯橡胶的重要单体,而苯乙烯单体中经常含有苯乙炔杂质,影响苯乙烯的聚合性能,因此研究苯乙炔选择性加氢生成苯乙烯具有十分重要的工业意义.传统的热催化苯乙炔加氢反应会用到易燃易爆的氢气,引起操作的危险性,因此,开发具有环境友好型的加氢反应体系具有很重要的意义.光催化加氢反应利用光生电子强的还原能力,还原质子产生活性的氢物种加氢,相较于传统的热催化使用氢气作为加氢源加氢,能够在温和的条件下实现高选择性加氢.基于此,本文利用Pt/TiO2作为光催化剂,甲醇作为加氢源实现了在385 nm单波长光照下苯乙炔的高选择性加氢.首先,我们利用光沉积的方法将Pt负载在TiO2的表面,通过透射电子显微镜图像和紫外可见吸收光谱表征了负载在TiO2表面Pt的颗粒分布和光学性质.结果表明负载的Pt的颗粒大约在5 nm左右,Pt的负载改变了TiO2在可见光区的吸收性能.XPS结果显示,通过光沉积得到的Pt的价态为金属态和氧化态共存.光催化苯乙炔加氢实验表明,Pt/TiO2催化剂在室温常压条件下不仅具有高的苯乙炔光催化转化率,当光照达8 h后,苯乙炔完全转化,而且在6 h之内苯乙烯选择性保持在91.3%,具有高的苯乙烯选择性.通过对负载的Pt的含量进行了优化,筛选出当Pt的负载量为1 wt%时,苯乙炔的转化率最高.为了对比,利用传统热催化的方法氢气作为加氢源进行了苯乙炔加氢实验,结果发现,使用氢气作为加氢源时,虽然苯乙炔的转化率为100%,但产物是过加氢的产物乙苯.这主要是因为在光催化反应过程中,TiO2导带上的电子迁移至Pt颗粒上,导致Pt的电子密度增加,Pt颗粒表面高的电子密度有利于加氢中间产物苯乙烯的脱附,因此,在光催化加氢过程中不会发生过加氢反应,具有高的苯乙烯选择性.同时,扩展实验表明,Pt/TiO2光催化剂对其他类型的炔烃加氢也具有高的选择性,表明Pt/TiO2光催化炔烃加氢具有普适性.由此可见,光催化炔烃加氢未来将成为一种环境友好而高效的方法.     

以草酸为电子给体在Pt-TiO2上光催化生成氢

 以草酸为电子给体,研究了在Pt－TiO2上光催化生成氢的反应．草酸的存在明显促进了生成氢的反应;二氧化钛负载Pt也明显提高了反应速率,Pt的最佳负载量为w（Pt）＝0．5％．草酸浓度对氢生成反应的影响符合Lang－muir关系式．最佳pH值为2～4．     

Exfoliated and reorganized graphite oxide on titania nanoparticles as an auxiliary co-catalyst for photocatalytic solar conversion

The hybrid of graphite oxide (GO)/TiO(2) was prepared through the spontaneous exfoliation of bulky graphite oxide and reorganization with TiO(2) nanoparticles as a solar conversion and hydrogen-generating photocatalyst. GO/TiO(2) showed enhanced activities for both photocurrent generation (in an electrode form) and hydrogen production (in a slurry form) than those of bare TiO(2) under UV light irradiation. The enhanced photocatalytic activity of GO/TiO(2) is ascribed to the ability of graphitic layers in accepting and transporting electrons from excited TiO(2), promoting the charge separation. When GO was hybridized with platinized TiO(2) (Pt/TiO(2)), it showed a marked synergistic effect for the photocatalytic hydrogen production compared with GO/TiO(2) and Pt/TiO(2). This indicates that the cheap and abundant carbon material can be a good candidate for an electron attracting reservoir and an auxiliary co-catalyst for the photocatalytic hydrogen production.     

可磁分离的氮掺杂二氧化钛光催化剂的制备及光催化性能

将氮掺杂二氧化钛和通过液相催化相转化制备的磁性载体混合、煅烧制备了一种可磁分离的光催化剂TiO2-xNx/SiO2/NiFe2O4(TSN), 这种光催化剂显示出了典型的铁磁性和可见光活性(λ>400 nm). 对该光催化剂的XRD谱图和透射电镜照片进行分析. 结果表明, SiO2/NiFe2O4(SN)纳米粒子黏附在TiO2-xNx聚集体的表面形成了TSN复合光催化剂. 利用光催化降解甲基橙的效果来评价这种光催化剂的活性. 结果表明, 在NiFe2O4和TiO2-xNx之间包覆一层无定形的SiO2, 可以显著地提高催化剂的脱色效果.     

TiO2/CuS异质结的制备及光催化降解染料废水的研究

以原位沉淀法和水热法混合的合成手段,制备了TiO_2/CuS异质结光催化剂。这种异质结改善了单一TiO_2半导体光催化剂的缺陷,明显提高了太阳光下光催化降解甲基橙的效率。TiO_2与CuS之间形成的异质结结构和合适的能带结构能够扩展材料对太阳光谱的响应范围并且很好地收集和传输光诱导载流子,从而提高了载流子的分离效率,最终使半导体的光催化活性明显增强。结果表明,太阳光照射25min后,相比于TiO_2/MnS、TiO_2/CdS和TiO_2/ZnS异质结,TiO_2/CuS异质结(TiO_2和CuS的摩尔比为3∶1)对甲基橙的降解效果最佳,降解效率能达到97.3%。为提高半导体的光催化活性提供了一条可行的路径。     

Mesoporous TiO2 nanostructures: a route to minimize Pt loading on titania photocatalysts for hydrogen production

Mesostructured TiO(2) nanocrystals have been prepared using Pluronic F127 as the structure-directing agent. Platinum nanoparticles at different contents (0.1-1.0 wt%) have been photochemically deposited onto the mesoporous TiO(2). TEM investigation of 0.2 wt% Pt/TiO(2) calcined at 450 °C reveals that the TiO(2) particles are quite uniform in size and shape with the particle sizes of TiO(2) and Pt being 10 and 3 nm, respectively. The photocatalytic activities of the Pt loaded TiO(2) have been assessed and compared with those of nonporous commercial Pt/TiO(2)-P25 by determining the rates and the photonic efficiencies of molecular hydrogen production from aqueous methanol solutions. The results show that the amount of hydrogen evolved on Pt/TiO(2)-450 at low Pt loading (0.2 wt%) is three times higher than that evolved on Pt/TiO(2)-P25 and twelve times higher than that evolved on Pt/TiO(2)-350. Despite the BET surface area of the TiO(2)-450 photocatalyst being 3.5 times higher than that of TiO(2)-P25, a 60% smaller amount of the Pt co-catalyst is required to obtain the optimum photocatalytic hydrogen production activity. The reduced Pt loading on the mesoporous TiO(2) will be important both from a commercial and an ecological point of view.     

无氧条件下Pt/TiO2光催化重整降解一乙醇胺水溶液制氢

以一乙醇胺（以下简称乙醇胺）为电子给体,在无氧条件下进行了Pt/TiO2光催化重整制氢的研究.详细讨论了诸多因素如催化剂表面Pt化学状态、Pt担载量、溶液pH值、乙醇胺溶液浓度等对产氢效率的影响,并用XRD、HNMR、XPS等进行了深入表征,探讨了Pt/TiO2光催化重整降解乙醇胺和产氢的反应, 实验表明,利用所制备的光催化剂, 可实现在消除水中有机污染物的同时制取氢气的目标.催化剂表面的Pt以Pt0的化学状态存在, 有利于析氢;溶液pH值和浓度的变化对产生速率也有一定的影响.同时发现Pt/TiO2光催化重整乙醇胺制氢反应的最佳条件是:Pt的最佳担载量约为0.5％～1.0％;乙醇胺溶液最佳浓度约为0.05 mol•L－1;最佳溶液pH值范围为4～10;氨基取代的羰基类化合物是其主要中间产物.     

超临界流体干燥法制备TiO2／C纳米粒子及光催化性能

以TiCl4为原料,采用溶胶凝胶法结合超临界流体干燥法(SCFD)制备了纳米级TiO2/C复合光催化剂.以苯酚的光催化降解对所得催化剂的催化活性进行了评价.结果表明,纳米TiO2/C复合粒子与单组分TiO2比较,复合粒子光催化活性高于单组分的TiO2,h苯酚降解率高达975 ％,COD为957%.并用XRD、TEM、 UV-Vis和XPS等手段进行了表征,iO2以锐钛矿型形式存在.比较了不同制备方法制得的TiO2/C复合催化剂,得出超临界干燥法制备的光催化剂具有粒径小,比表面积大,分散性好,光催化活性高等特点.     

活性炭负载纳米TiO_2光催化降解甲醛废水研究

甲醛对人和温血动物的毒性很强,如果人类长期饮用被甲醛污染的水源,会引发头昏、贫血以及各种神经系统疾病.为此,研究学者对甲醛废水的处理进行了很多的试验研究.目前处理甲醛废水的主要方法有:芬顿法、光催化氧化法、湿式氧化处理等高级氧化技术,二氧化氯法,蒸汽吹脱法,氧化吸附法,SBR工艺等.     

以偏钛酸为原料制备高效负载型纳米TiO2/活性炭光催化剂

以颗粒活性炭(AC)为载体, 偏钛酸为钛源, 采用浸渍-水热法制备负载型TiO2光催化剂, 在300～800 ℃下热解处理. 利用X射线衍射、扫描电镜、拉曼光谱和氮气吸附对催化剂样品进行了表征. 以甲基橙(MO)降解为模型反应, 对负载型TiO2光催化性能进行评价. 结果表明, 经600 ℃焙烧的样品具有最佳光催化性能, 为锐钛矿晶型, 负载于活性炭上的TiO2是由30～50 nm的球型颗粒组成. 负载型TiO2/AC光催化剂的光催化活性高于相同方法制备TiO2和AC混合物及商业化产品Degussa P25与活性炭混合物, 光降解反应符合一级反应动力学方程. 催化剂重复使用5次其光催化活性基本保持不变.     

碳纳米管改性TiO2光催化剂的制备及性能

以钛酸四丁酯为前驱体,通过溶胶-凝胶法制备了碳纳米管（CNT）改性的TiO2光催化剂．考查了不同CNT含量的光催化剂的催化活性,结果农明CNT的质量分数为0．3％时对甲基橙具有最佳的降解效果,100min的降解率接近90％,明显高于纯TiO2．采用XRD、IR和UV—vis对光催化剂进行了表征,光催化剂的粒径经计算为20nm～30nm,红外光漕中改性TiO2有羰基吸收峰,紫外光谱中改性TiO2的吸收出现明显红侈．     

TiO2／SnO2复合光催化剂的耦合效应

采用改进的 sol-gel技术制备ＴiO2/SnO2耦合型半导体光催化剂,利用ＸＲＤ、气相色谱仪、粒度仪和表面光电压装置等研究了耦合型半导体光催化机理和光催化效率的影响因素,并通过降解甲醛探讨其在空气污染治理中的作用。实验结果表明,添加20％（mol)SnO2的复合半导体光催化剂,其光催化效率比纯TiO2高一倍以上。据实验结果和粒子紧密堆积原理,提出强耦合效应和弱耦合效应的光催化反应模型,并用此模型较好地解释了TiO2/SnO2复合型半导体光催化剂的光催化效率随SnO2 含量变化规律。     

活性炭负载TiO2-Fe3O4磁性光催化剂的制备及性能

采用溶胶-凝胶法制备了易于固液分离的活性炭（AC）负载磁性光催化剂（TiO2-Fe3O4／AC）．样品通过SEM-EDX和X射线衍射法进行表征．通过在紫外光照射下降解亚甲基蓝评价其光催化降解能力．结果表明：负载22％Fe3O4的光催化剂（含20％TiO2和58％AC）的光催化活性最强（120min时亚甲基蓝的降解率达到87％,是纯TiO2的2．7倍）;磁性光催化剂可实现磁分离回收．     

Gas-phase photocatalytic oxidation of benzene over titanium dioxide loaded on Bi_(12)TiO_(20)

TiO2 was prepared by sol-gel method using tetrabutyl titanate as precursor. TiO2 was loaded on Bi12TiO20. The photocatalyst with different TiO2 loading was calcined at 723 K. The photocatalytic activity of decomposition gaseous benzene was investigated in a batch reactor. The prepared photocatalyst was characterized by UV-vis diffuse reflectance. The result showed that TiO2/Bi12TiO20 absorbed much more ultraviolet light than Ti02 in the ultraviolet light region and showed red shift. The results indicated that the prepared photocatalyst can greatly promote the photocatalytic activity. The 2.0% TiO2/Bi12TiO20 system exhibited the highest photocatalytic activity.