TiO2光催化降解PFOA的反应动力学及机制研究

全氟辛酸(PFOA)是一种新的持久性有机污染物,其处置技术是研究的热点.以UV254 nm紫外灯为光源,采用商品TiO2(P25)对PFOA进行光催化降解实验,并考察pH、TiO2用量、初始浓度、反应气氛对降解的影响.结果表明,反应符合准一级动力学方程,pH对反应有重要影响,氧气存在下能提高反应效率.在pH为3,TiO2用量为1.5 g·L-1,通入空气条件下反应7 h实现基本降解,速率常数为0.4206 h-1.投加俘获剂实验表明,空穴(h+)是主要的活性物质,其对反应速率贡献率为66.1%;羟基自由基(·OH)也参与PFOA的降解过程;投加NaF实验表明,PFOA在TiO2上吸附是反应发生的首要条件.UPLC-QTOF/MS分析表明,PFOA光催化降解逐级生成短链全氟羧酸(PFCAs).     

Photocatalytic degradation of phenanthrene on soil surfaces in the presence of nanometer anatase TiO2 under UV-light

The effect of nanometer anatase TiO₂ was investigated on the photocatalytic degradation of phenanthrene on soil surfaces under a variety of conditions. After being spiked with phenanthrene, soil samples loaded with different amounts of TiO₂ (0 wt.%, 1 wt.%, 2 wt.%, 3 wt.%, and 4 wt.%) were exposed to UV-light irradiation for 25 hr. The results indicated that the photocatalytic degradation of phenanthrene followed the pseudo first-order kinetics. TiO₂ significantly accelerated the degradation of phenanthrene with the half-life reduced from 45.90 to 31.36 hr for TiO₂ loading of 0 wt.% and 4 wt.%, respectively. In addition, the effects of H₂O₂, light intensity and humic acid on the degradation of phenanthrene were investigated. The degradation of phenanthrene increased with the concentration of H₂O₂, light intensity and the concentration of humic acids. It has been demonstrated that the photocatalytic method in the presence of nanometer anatase TiO₂ was a very promising technology for the treatments of soil polluted with organic substances in the future.     

TiO2诱导下左旋氧氟沙星的可见光降解及其机制

左旋氧氟沙星是一种新型污染物.单一的左旋氧氟沙星(LFV)和Ti O2无可见光响应,但二者共存下左旋氧氟沙星能发生显著的可见光降解.为此研究Ti O2用量、溶液p H以及左旋氧氟沙星浓度对Ti O2/Vis(可见光)降解左旋氧氟沙星的影响及机制.结果表明,左旋氧氟沙星能吸附在Ti O2表面,吸附服从准二级吸附动力学和Langmuir吸附等温线.吸附左旋氧氟沙星的Ti O2漫反射UV-Vis光谱进一步表明二者形成表面复合物.左旋氧氟沙星的Ti O2/Vis降解动力学符合LangmuirHinshelwood方程.合适的Ti O2浓度和中性p H有利于光解过程的进行.自由抑制实验、N2保护下左旋氧氟沙星的Ti O2/Vis降解实验揭示·O-2是该过程中的主要活性物种.同时,无氧左旋氧氟沙星-Ti O2悬浮液光照不同时间的UV-Vis光谱证明体系中存在电子向Ti O2导带的注入.依据实验结果提出吸附在Ti O2表面的左旋氧氟沙星与Ti O2形成表面复合物,在可见光照下发生电子迁移,从而引发左旋氧氟沙星降解.本研究表明利用污染与Ti O2形成表面复合物诱导其可见光降解可用来去除水中某些有机污染物.     

TiO2-石墨烯（Gn）复合材料光催化降解O3研究

通过改性Hummer法及溶胶凝胶法,制备出TiO2-石墨烯光催化复合材料.经吸附-光催化活性实验选出光催化活性最高的含C量为1.5%(质量分数)的TiO2-石墨烯复合材料,并在自行设计的模拟大型客机环境的气相光催化反应器中,进行O3光催化降解实验研究.结果表明,TiO2-石墨烯复合光催化材料在较短时间内对O3有较高的降解效率,且其光催化活性显著优于纯TiO2材料.初始O3浓度为(0.150～0.200)×10-6时,复合光催化剂受紫外光激发60 min的光催化降解率为66.12%,初始O3浓度为(0.950～1.000)×10-6时,其光催化降解率约为77%,较低浓度时((0.100～0.150)×10-6),O3去除率也能达到45.45%.此外,通过探讨光催化材料的重复使用性能,表明复合光催化剂重复使用4次以内,其对O3的光催化降解率保持基本稳定.     

In_2TiO_5纳米带的静电纺丝法制备及光催化性能

以酞酸丁酯(Ti(OC_4H_9)_4)、硝酸铟(In(NO3)3)和聚乙烯吡咯烷酮(PVP-K30)为原料,采用静电纺丝技术制备了In_2TiO_5纳米带.利用X射线衍射(XRD)、扫描电子显微镜(SEM)、紫外-可见漫反射光谱(UV-vis DRS)和氮气吸附-脱附等温线(BET)等技术对样品进行了表征.考察了In_2TiO_5纳米带在光催化降解罗丹明B(RhB)、甲基橙(MO)、亚甲基蓝(MB)和左氧氟沙星(LEV)过程中的应用性能,研究了不同离子型物质、溶液的pH和MB起始浓度对In_2TiO_5纳米带光催化活性的影响.结果表明:In_2TiO_5纳米带具有正交晶系结构,禁带宽度为3.47 eV,比表面积为20.71 m~2·g~(-1),可应用于4种不同离子型物质的光催化降解,发现光催化效果与被降解物质的表面带电性质有关.在紫外光照射下,90 min,对MB的降解率达98.1%,其降解过程服从一级动力学模型.     

Tricrystalline TiO2 with enhanced photocatalytic activity and durability for removing volatile organic compounds from indoor air

It is important to develop efficient and economic techniques for removing volatile organic compounds(VOCs) in indoor air. Heterogeneous Ti O_2-based semiconductors are a promising technology for achieving this goal. Anatase/brookite/rutile tricrystalline Ti O_2 with mesoporous structure was synthesized by a low-temperature hydrothermal route in the presence of HNO_3.The obtained samples were characterized by X-ray diffraction and N_2 adsorption–desorption isotherm. The photocatalytic activity was evaluated by photocatalytic decomposition of toluene in air under UV light illumination. The results show that tricrystalline Ti O_2 exhibited higher photocatalytic activity and durability toward gaseous toluene than bicrystalline Ti O_2,due to the synergistic effects of high surface area, uniform mesoporous structure and junctions among mixed phases. The tricrystalline Ti O_2 prepared at R HNO_3= 0.8, containing80.7% anatase, 15.6% brookite and 3.7% rutile, exhibited the highest photocatalytic activity,about 3.85-fold higher than that of P25. The high activity did not significantly degrade even after five reuse cycles. In conclusion, it is expected that our study regarding gas-phase degradation of toluene over tricrystalline Ti O_2 will enrich the chemistry of the Ti O_2-based materials as photocatalysts for environmental remediation and stimulate further research interest on this intriguing topic.     

附载TiO2光催化降解咪蚜胺农药

以主波长３６５ｎｍ的黑炽荧光灯为光源,研究了由ＣＭＣ－Ｎａ附载ＴｉＯ２光催化降解咪蚜胺农药的过程。结果表明,咪蚜胺农药在３＊８Ｗ黑炽荧光灯照射下,经附载ＴｉＯ２作用３ｈ后可降解５０％以上,其光解可用假一级动力学方程表示。     

WC/TiO2纳米复合界面光催化剂制备及其光催化降解酚类污染物研究

设计并制备了新型WC/TiO2纳米复合界面光催化剂应用于酚类污染物的光催化降解反应中.采用X射线衍射(XRD)和扫描电子显微镜(SEM)技术分析了WC/TiO2纳米复合界面光催化剂的晶型和表面形貌.结果显示锐钛矿型TiO2纳米颗粒均匀地分散在WC纳米球表面并很好地构筑了WC/TiO2界面.研究了不同WC负载比例的WC/TiO2光催化剂在模拟太阳光照射下降解苯酚的光催化性能.结果表明:WC/TiO2复合界面的形成可以有效地提高TiO2光催化降解性能;其中,3%WC/TiO2(质量分数)光催化降解苯酚的活性最高.利用紫外-可见光谱(UV-Vis)和高效液相色谱-质谱联用技术(HPLC-MS)分析了WC/TiO2纳米复合界面光催化剂降解苯酚的中间产物,提出了苯酚在WC/TiO2界面上可能的降解机理.     

Photocatalytic degradation of organochlorine compounds using TiO2 supported on fiberglass cloth

The feasibility of photocatalytic degradation of organochlorine compounds using TiO₂ supported on fiberglass cloth as a photocatalyst was studied. The results showed that 2.0×10^-4 mol/dm³ of dichloroethylene, trichloroethylene and tetrachloroethylene can be completely photocatalytically degraded within a short time under illumination with a 375W medium pressure mercury lamp. The effects of parameters such as illumination time, initial concentration of organochlorine compounds, amount of air flow and concentration of H₂O₂ on the photocatalytic degradation were investigated. The TiO₂ supported on the fiberglass was not easily detached and after 500h illumination there was no significant loss of photocatalytic activity of TiO₂. The passible mechanisms of photocatalytic degradation were discussed.     

钯掺TiO2光催化降解全氟辛酸

全氟辛酸(perfluorooctanoic acid,PFOA)以其分布广泛性、生物蓄积性、生物毒性强而成为全球关注的一种新型持久性有机污染物.采用化学还原法制备钯掺二氧化钛(Pd-Ti O2)催化剂,利用XRD、FESEM、UV-vis DRS对催化剂进行表征,并考察其在365 nm紫外光照射下对PFOA的光催化降解效果.结果表明,化学还原的制备方法使Ti O2粒径减小、比表面积增大且对紫外光的吸收性能增大,但并不引起PFOA光催化效果的改变.而Pd掺杂后大大增强了PFOA的降解效果,反应7 h后溶液中氟离子浓度为6.62 mg·L-1,是Ti O2(P25)的7.3倍.投加俘获剂与通入氮气的实验证明,在PFOA的降解过程中·OH起重要作用,氧气的存在可促进PFOA的降解.采用UPLC-QTOF-MS对产物进行鉴定分析,PFOA的可能降解过程是经h+氧化后发生脱羧基反应,产生的全氟烷烃自由基(·CnF2n+1)被·OH氧化,脱氟生成短链全氟羧酸.Pd能作为电子(e-)捕获剂、加速e-向O2等电子受体的转移,从而缓解e-累积,提高对PFOA的降解效果.     

TiO2降解迪美唑的动力学及活性物质分析

兽类抗生素迪美唑是一种新兴的污染物质,对环境和人类健康具有潜在危害.以紫外光为光源,以TiO2为催化剂,对其进行光催化降解,考察了溶液pH值、TiO2投加量、溶液的初始浓度等影响因素对迪美唑降解效果的影响.结果表明,在TiO2投加量为1 g·L-1,迪美唑初始浓度为40 mg·L-1,溶液pH为11的最优条件下反应90 min后,迪美唑的去除率为90%,反应速率为0.025 7 min-1.反应符合伪一级动力学模型.光催化降解迪美唑有两个途径:一是·OH氧化过程,二是e-还原过程.     

Enhanced photocatalytic activity of fish scale loaded TiO2 composites under solar light irradiation

Fish scale (FS) loaded TiO₂ composites were investigated as photocatalysts in degradation of Methyl Orange under solar light irradiation. Composites were prepared through sol-gel method by varying mass ratio of TiO₂/FS at 90:10, 70:30 and 50:50, respectively. The catalysts prepared in this study were characterized by using XRD, SEM, FT-IR and nitrogen sorption. The effects of solar irradiation, mass ratio of TiO₂/FS composites, irradiation time and catalyst loadings were studied. Synergistic effect was found in TiO₂/FS of 90:10 composite which performed higher photocatalytic degradation than synthesized TiO₂ under solar light irradiation. However, further increasing fish scale content in the composites reduced the photocatalytic activity drastically. Under solar light irradiation, all the catalysts in this study exhibited photocatalytic activity, except TiO₂/FS of 50:50 composite that only acted as a weak biosorbent without performing any photocatalytic property. Photocatalytic degradation increased with increasing catalyst loading and irradiation time but decreased with increased of initial dye concentration.     

Tricrystalline TiO2 with enhanced photocatalytic activity and durability for removing volatile organic compounds from indoor air

It is important to develop efficient and economic techniques for removing volatile organic compounds (VOCs) in indoor air. Heterogeneous TiO₂-based semiconductors are a promising technology for achieving this goal. Anatase/brookite/rutile tricrystalline TiO₂ with mesoporous structure was synthesized by a low-temperature hydrothermal route in the presence of HNO₃. The obtained samples were characterized by X-ray diffraction and N₂ adsorption–desorption isotherm. The photocatalytic activity was evaluated by photocatalytic decomposition of toluene in air under UV light illumination. The results show that tricrystalline TiO₂ exhibited higher photocatalytic activity and durability toward gaseous toluene than bicrystalline TiO₂, due to the synergistic effects of high surface area, uniform mesoporous structure and junctions among mixed phases. The tricrystalline TiO₂ prepared at R_HNO3 = 0.8, containing 80.7% anatase, 15.6% brookite and 3.7% rutile, exhibited the highest photocatalytic activity, about 3.85-fold higher than that of P25. The high activity did not significantly degrade even after five reuse cycles. In conclusion, it is expected that our study regarding gas-phase degradation of toluene over tricrystalline TiO₂ will enrich the chemistry of the TiO₂-based materials as photocatalysts for environmental remediation and stimulate further research interest on this intriguing topic.     

Photocatalytic decomposition of acrylonitrile with N–F codoped TiO2/SiO2 under simulant solar light irradiation

The solid acid catalyst, N–F codoped TiO₂/SiO₂ composite oxide was prepared by a sol–gel method using NH₄F as nitrogen and fluorine source. The prepared materials were characterized by X-ray diffraction (XRD), scanning electron microscopy (SEM), X-ray photoelectron spectroscopy (XPS), UV–Visible diffuse reflectance spectroscopy (UV–Vis), ammonia adsorption and temperature-programmed desorption (NH₃-TPD), in situ Fourier transform infrared spectroscopy (FT-IR) and N₂ physical adsorption isotherm. The photocatalytic activity of the catalyst for acrylonitrile degradation was investigated under simulant solar irradiation. The results showed that strong Lewis and Brønsted acid sites appear on the surface of the sample after N–F doping. Systematic investigation showed that the highest photocatalytic activity for acrylonitrile degradation was obtained for samples calcined at 450°C with molar ratio (NH₄F to Ti) of 0.8. The degradation ratio of 71.5% was achieved with the prepared catalyst after 6-min irradiation, demonstrating the effectiveness of photocatalytic degradation of acrylonitrile with N–F codoped TiO₂/SiO₂ composite oxide. The photocatalyst is promising for application under solar light irradiation. Moreover, the intermediates generated after irradiation were verified by gas chromatography–mass spectrometry (GC–MS) analysis and UV–Vis spectroscopy to be simple organic acids with lower toxicity, and the degradation pathway was also proposed for acrylonitrile degradation with the prepared catalyst.     

Rubber sheet strewn with TiO2 particles:Photocatalytic activity and recyclability

A new method for the preparation of rubber sheet strewn with titanium dioxide particles (TiO₂-strewn sheet) is presented. This simple and low cost method is based on the use of TiO₂ powder (Degussa P25) being strewn onto the sheet made from rubber latex (60% HA) through a steel sieve. The characteristic of the TiO₂-strewn sheet was studied by using scanning electron microscopy/energy dispersive X-ray spectrometer (SEM/EDS) and X-ray diffractometer (XRD) techniques. The photocatalytic activity of TiO₂-strewn rubber sheet was evaluated using Indigo Carmine (IC) dye as a model for organic dye pollutant in water. The results showed that the TiO₂-strewn sheet could degrade IC dye solution under UV light irradiation. The effects of pH, initial concentration, and the intensity of UV light on the photodegradation were also investigated. Kinetics of the photocatalytic degradation was of the first-order reaction. The used TiO₂-strewn sheet can be recovered and reused. The recycling uses did not require any cleaning between successive uses and no decline in the photodegradation efficiency was observed compared with freshly prepared TiO₂-strewn sheet.     

Photocatalytic degradation of methyl orange using ZnO/TiO2 composites

ZnO/TiO₂ composites were synthesized by using the solvothermal method and ultrasonic precipitation followed by heat treatment in order to investigate their photocatalytic degradation of methyl orange (MO) in aqueous suspension under UV irradiation. The composition and surface structure of the catalyst were characterized by X-ray diffraction (XRD), field emission scanning electron microscope (FE-SEM), and transmission electron microscopy (TEM). The degradation efficiencies of MO at various pH values were obtained. The highest degradation efficiencies were obtained before 30 min and after 60 min at pH 11.0 and pH 2.0, respectively. A sample analysis was conducted using liquid chromatography coupled with electrospray ionization ion-trap mass spectrometry. Six intermediates were found during the photocatalytic degradation process of quinonoid MO. The degradation pathway of quinonoid MO was also proposed.     

Photocatalytic degradation of dichlorvos using TiO2 supported on hollow glass microbeads

In this paper, a method for TiO₂ supported on hollow glass microbeads was described and the feasibility of photocatalytic degradation of dichlorvos using supported TiO₂(TiO₂/beads) was studied. The results showed that 1.0×10^-4 mol.dm^-3 of dichlovos could be completely photocatalytically degraded into PO₄^3- after 120 min illumination with a 375 W medium pressure mercury lamp. The effects of the amount of TiO₂/beads and concentration of Cu²⁺ on the photocatalytic degradation were also investigated. Some intemediate products of photocatalytic degradation of dichlorvos were detected.     

上转换发光剂掺杂纳米TiO2的制备及可见光降解乙基紫的研究

合成了一种新型含有稀土金属Er的上转换发光剂40CdF₂·60BaF₂·1.6Er₂O₃,此上转换发光剂在488 nm可见光的激发下,产生了5个波长均小于387 nm的上转换紫外光发射峰.采用超声波分散的方法制备出了上转换发光剂掺杂的纳米TiO₂可见光光催化剂.利用X-射线衍射(XRD)及透射电镜(TEM)对催化剂进行了表征.以乙基紫染料为研究对象,研究了在(三基色灯下发出的)可见光的照射下该可见光光催化剂的催化降解性能,并与未掺杂的纳米TiO₂粉末的催化性能进行了对比.结果表明,作为掺杂成分的上转换发光剂可有效地将可见光转化为紫外光并被纳米TiO₂粉末吸收利用,在可见光照射12.0 h后乙基紫降解率达到了99.68%,大大高于未掺杂纳米TiO2时的降解率.     

氧化剂增强TiO2纤维光催化降解DMF研究

研究TiO₂纤维光催化降解DMF水溶液的结果表明:氧化剂增强了TiO₂纤维对DMF的降解能力,在其它反应条件相同情况下,O₃/TiO₂(F)对DMF降解率是air/TiO₂(F)和H₂O₂/TiO₂(F)的1.5倍左右,且降解速率提高2倍左右,COD分析表明DMF几乎完全矿化.同时实验过程中确定了DMF光催化降解中间产物仲胺的存在.以二甲胺为仲胺代表物进行光催化降解研究表明,中间产物仲胺的迅速降解是O₃增强TiO₂纤维降解效应的主要因素.     

可见光激发下模拟海水中四环素光降解的机制和路径

为了探明海水体系中多相光催化降解污染物的机制和路径,研究了在可见光激发下不同介孔TiO₂光催化降解纯水和模拟海水中四环素(TC)的过程,明确了不同盐离子对光催化降解过程的影响.结合自由基捕获实验,电子自旋共振(ESR)光谱和中间产物分析研究了光降解污染物的主要活性物种和模拟海水中TC降解途径.结果表明,模拟海水中TC光催化过程会受到显著抑制,手性介孔TiO₂催化剂对TC光降解反应速率相比其在纯水体系降低了70%左右,而非手性TiO₂光催化剂在海水体系中几乎不能降解TC.模拟海水中阴离子对光降解过程影响较小,但Mg²⁺和Ca²⁺存在会显著抑制光催化过程.无论在纯水还是模拟海水中,可见光激发后催化剂产生的活性物种都是空穴为主,因此模拟海水中降解路径与纯水体系中相同.盐离子不会抑制活性物种的产生,但Mg²⁺和Ca²⁺会富集在TC分子中电负性强的原子周边,阻碍空穴等对TC分子中电负性强原子的攻击,从而抑制了光催化降解效率.