低温燃烧合成纳米Ni掺杂TiO2光催化剂的表征及活性研究

采用低温燃烧合成法制备了Ni掺杂TiO₂光催化剂,通过紫外-可见漫反射光谱(UV-Vis DRS)、X射线粉末衍射(XRD)、激光散射、热重-差示扫描量热分析(TG-DSC)等方法对催化剂的光吸收特性、晶相组成、粒度分布、升温过程中化学变化等进行了表征,以亚甲基蓝为模型污染物考察了催化剂在可见光下的光催化活性.结果表明,相对P25而言,Ni掺杂TiO₂的光吸收带边红移,当Ni/Ti原子比为0.4时,催化剂的带隙宽度为2.3eV,对应的吸收带边为564nm;催化剂晶型以锐钛矿TiO₂为主,随Ni掺杂量增大,NiTiO₃比例升高;催化剂粒径主要分布在50～150nm之间,占总量的96.9%;升温过程中催化剂在445.2℃发生晶型转化,出现锐钛矿和NiTiO₃晶体.催化剂显示出较高的催化活性,在可见光作用150min后最高可使93.9%的亚甲基蓝分解,活性高于P25.     

Hydrothermal fabrication and visible-light-driven photocatalytic properties of bismuth vanadate with multiple morphologies and/or porous structures for Methyl Orange degradation

Monoclinic BiVO₄ with multiple morphologies and/or porous structures were fabricated using the hydrothermal strategy. The materials were characterized by means of the XRD, Raman, TGA/DSC, SEM, XPS, and UV-Vis techniques. The photocatalytic activities of the BiVO₄ materials were evaluated for the degradation of Methyl Orange under visible-light irradiation. It is observed that pH value and surfactant exerted a great effect on the morphology and pore structure of the BiVO₄ product. Spherical BiVO₄ with porous structures, flower-cluster-like BiVO₄, and flower-bundle-like BiVO₄ were generated hydrothermally at 100℃ with poly(vinyl pyrrolidone) (PVP) and urea (pH = 2) and at 160℃ with NaHCO₃ (pH = 7 and 8), respectively. The PVP-derived BiVO₄ showed much higher surface areas (5.0-8.4 m²/g) and narrower bandgap energies (2.45-2.49 eV). The best photocatalytic performance of the spherical BiVO₄ material with a surface area of 8.4 m²/g was associated with its higher surface area, narrower bandgap energy, higher surface oxygen vacancy density, and unique porous architecture.     

Visible light driven mineralization of spiramycin over photostructured N-doped TiO2 on up conversion phosphors

A novel visible light-active photocatalyst formulation(NdT/OP) was obtained by supporting N-doped TiO_2(NdT) particles on up-conversion luminescent organic phosphors(OP). The photocatalytic activity of such catalysts was evaluated for the mineralization process of spiramycin in aqueous solution. The effect of NdT loading in the range 15–60 wt.% on bulk and surface characteristics of NdT/OP catalysts was investigated by several chemicophysical characterization techniques. The photocatalytic performance of NdT/OP catalysts in the removal of spyramicin from aqueous solution was assessed through photocatalytic tests under visible light irradiation. Total organic carbon(TOC) of aqueous solution,and CO and CO_2 gas concentrations evolved during the photodegradation were analyzed. A dramatic enhancement of photocatalytic activity of the photostructured visible active NdT/OP catalysts,compared to NdT catalyst,was observed. Only CO_2 was detected in gas-phase during visible light irradiation,proving that the photocatalytic process is effective in the mineralization of spiramycin,reaching very high values of TOC removal. The photocatalyst NdT/OP at 30 wt.% of NdT loading showed the highest photocatalytic activity(58%of TOC removed after 180 min irradiation against only 31% removal after 300 min of irradiation of NdT). We attribute this enhanced activity to the high effectiveness in the utilization of visible light through improved light harvesting and exploiting. OP particles act as "photoactive support",able to be excited by the external visible light irradiation,and reissue luminescence of wavelength suitable to promote NdT photomineralization activity.     

不同煅烧温度制备的Mn、N掺杂TiO2光催化性能研究

以MnSO4·H2O为锰源,尿素为氮源,采用溶胶-凝胶法制备不同锻烧温度的纯TiO2、Mn-TiO2及Mn-N-TiO2光催化剂,利用X射线衍射、紫外-可见光漫反射光谱及电子自旋共振等技术对样品形貌和结构进行表征,并以罗丹明B的光催化降解为模型反应,考察不同锻烧温度对其光催化活性的影响.结果表明,Mn、N成功掺入TiO2后,有利于提高光催化剂的热稳定性,抑制锐钛矿相向金红石相转化,且光吸收拓展到可见光区域.Mn、N共掺杂样品比单Mn掺杂样品具有更高的光催化活性,400℃下锻烧的Mn-N-TiO2在可见光下对罗丹明B的降解具有最高的光催化活性,光照2h降解率达到100%.高温锻烧Mn-N-TiO2和Mn-TiO2样品在紫外光照射30min后对罗丹明B的降解率在90%以上.     

Hollow TiO2 spheres with improved visible light photocatalytic activity synergistically enhanced by multi-stimulative: Morphology advantage, carbonate-doping and the induced Ti3 +

Great efforts have been devoted to improve the photocatalytic activity of TiO_2 in the visible light region. Rational design of the external structure and adjustment of intrinsic electronic status by impurity doping are two main effective ways to achieve this purpose. A facile onepot synthetic approach was developed to prepare C-doped hollow TiO_2 spheres, which simultaneously realized these advantages. The synthesized TiO_2 exhibits a mesoporous hollow spherical structure composed of fine nanocrystals, leading to high specific surface area(~180 m~2/g) and versatile porous texture. Carbonate-doping was achieved by a postthermal treatment at a relatively low temperature(200°C), which makes the absorption edge red-shifted to the visible region of the solar spectrum. Concomitantly, Ti~(3+) induced by C-doping also functions in improving the visible-light photocatalytic activity by reducing the band gap. There exists a synergistic effect from multiple stimulatives to enhance the photocatalytic effect of the prepared TiO_2 catalyst. It is not out of expectation that the asprepared C-doped hollow TiO_2 spheres exhibits an improved photocatalytic activity under visible light irradiation in organic pollutant degradation.     

上转光剂掺杂新型纳米TiO2催化剂的制备及利用可见光降解反应艳蓝KN-R染料的研究

合成了一种新型含有稀土金属Er的上转光剂,40CdF2·60BaF2·0.8Er2O3,此上转光剂在488 nm可见光的激发下,产生了5个波长均小于387 nm的上转换紫外发射峰.采用超声波分散的方法制备出了上转光剂掺杂的纳米TiO2可见光光催化剂.采用X射线衍射(XRD)及透射电镜(TEM)对催化剂进行了表征.以反应艳蓝KN-R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,并与未掺杂纳米TiO2粉末的催化剂性能进行了对比.实验结果表明,作为掺杂成分的上转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50 h后反应艳蓝KN-R降解率达74.36%,大大高于未掺杂纳米TiO2的降解率(23.10%).     

Degradation of dyestuff wastewater using visible light in the presence of a novel nano TiO2 catalyst doped with upconversion luminescence agent

IntroductionEvery year ,the dyeing processes and dye productionbring large amounts of wastewaters containing highconcentration poisonous organic compounds ( Neppolian,2002 ; An, 2002) . If not being treated properly andbetimes , the wastewaters will serio…     

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.     

Pt掺杂TiO2和TNTs光催化剂的特征及光催化产氢性能比较

采用光沉积法掺杂Pt分别制备光催化剂Pt/TNTs和Pt/TiO₂,采用扫描电镜（SEM）、透射电镜（TEM）、X射线衍射（XRD）和紫外可见分光光度计（UV-Vis）对光催化剂进行表征,考察甲醇溶液浓度和Pt掺杂量对光催化产氢效率的影响,并在紫外光（320~400 nm）和可见光（400~700 nm）下比较TiO₂、TNTs、Pt/TiO₂和Pt/TNTs 4种催化剂催化甲醇溶液的产氢效率。结果显示:掺杂Pt可将光催化剂吸收波长红移至可见光区域,由于TNTs具有更大的比表面积,可负载更多的Pt,使电子有效转移至金属上,降低电子电洞对再结合的概率,并增加光催化效果;Pt/TNTs在紫外光和可见光的照射下,光催化效率均高于Pt/TiO₂,在最佳Pt负载量为1%（以质量分数计）,甲醇溶液质量分数为20%的条件下,Pt/TNTs在紫外光和可见光下产氢率分别为2331,137.7 μmol/h。对比可知,本研究的可见光催化产氢系统具有很大的发展潜力。     

Nonylphenol photodegradation by novel ternary MIL-100（Fe）/ZnFe2O4/PCN composite under visible light irradiation via double charge transfer process

Nonylphenol（NP） residues, as a typical endocrine disrupting chemical（EDC）, frequently exist in sewage, surface water, groundwater and even drinking water, which poses a serious threat to human health due to its bioaccumulation. In order to remove NP, a series of MIL-100（Fe）/Zn Fe₂O₄/flake-like porous carbon nitride（MIL/ZC） was synthesized through in-situ synthesis at room temperature. High performance of ternary MIL/ZC is used to degrade NP under visible light irradiation. ...     

Synergistic effect of N- and F-codoping on the structure and photocatalytic performance of TiO2

Three types of TiO₂ nanostructures were synthesized via a facile hydrolysis method at 195 °C. Effects of the preparation method and doping with N and F on the crystal structure and photocatalytic performance of TiO₂ were investigated. The nanomaterials were characterized by X-ray diffraction, transmission electron microscopy, X-ray photoelectron spectroscopy, Brunauer–Emmett–Teller porosimetry, ultraviolet–visible diffuse reflectance spectroscopy and fluorescent emission spectra. Their photo-catalytic activity was examined by the photodegradation of methylene blue in aqueous solution under both ultra-violet and visible light irradiation. The results show that nitrogen and fluorine co-doped anatase TiO₂ had the characteristics of a smaller crystalline size, broader light absorption spectrum and lower charge recombination than pure TiO₂. Most importantly, more efficient photocatalytic activity under both ultra-violet and visible light was observed. The obtained N–F-TiO₂ nanomaterial shows considerable potential for water treatment under sunlight irradiation.     

磷掺杂的介孔石墨相氮化碳光催化降解染料

将三聚氰胺、三聚氰胺聚磷酸盐和SBA-15热共聚成功制备了磷掺杂的介孔石墨类氮化碳（P-mpg-C₃N₄）,并通过场发射扫描电子显微镜（FESEM）、X射线衍射光谱（XRD）、傅里叶转换红外光谱（FT-IR）、X射线光电子能谱（XPS）、场发射扫描透射电镜能谱（EDS）和紫外可见光漫反射光谱（UV-vis-DRS）等方法对催化剂形貌结构和光学性能进行了表征.结果表明,磷元素成功地掺杂在氮化碳的结构上,呈均匀分布,相对于石墨相氮化碳（g-C₃N₄）,其比表面积可达198.3m²/g,并因此提供大量的活性位点而提高光催化活性.P-mpg-C₃N₄对亮丽春红5R的光催化降解速率是g-C₃N₄的31.3倍,其光催化性能增强的机理是禁带宽度的减小,可见光吸收范围从440nm延伸到了460nm,其次,改性后的光催化剂能显著抑制光生电子空穴对的复合,从而有更多的活性点位以及活性物种能参与光催化反应过程.循环实验表明,经过5个循环降解后光催化性能仍保持在初始状态的91.67%,表明P-mpg-C₃N₄具有很好的光催化稳定性.     

V~(5+)/TiO_2-SiO_2-GF复合光催化剂制备及降解甲醛的研究

采用溶胶-凝胶法制备了纯TiO2、TiO2-SiO2、V5+/TiO2-SiO2光催化剂,并分别负载于玻璃纤维布上,利用X射线衍射(XRD)和比表面及孔隙度(BET)分析技术对样品进行了表征。以甲醛的降解率来评价复合光催化剂的光催化活性。结果表明:玻璃纤维布预处理方式、TiO2与SiO2的复合配比、V的掺杂量、煅烧温度对纳米TiO2的光催化活性有影响。V5+/TiO2-SiO2复合光催化剂比表面积为143.74 m2/g,晶粒粒径为16.9 nm。     

Photocatalytic degradation of the dye sulforhodamine-B： A comparative study of different light sources

The photocatalytic degradation of dye pollutant sulforhodamine-B （SRB） in aqueous titanium dioxide （TiO2） dispersions was examined under three lighting regimes： UV light （330 nm〈λ〈 380 nm）, sunlight, and visible light （λ〉450 nm）, all investigated at pH=2.5. Total organic carbon （TOC） and chemical oxygen demand （CODer） assays show that the degradation rate of SRB is much higher when irradiated with UV and sunlight compared with visible light. The temporal concentration changes of SRB illustrated a first-order reaction and the rate constant, k, is 0.197 min^-1, 0.152 min^-1, 0.027 min^-1, respectively, under the three lighting conditions. The final mineralized products were amine compounds identified by infrared spectrophotometry. When irradiated with visible light, the photocatalytic degradation rate could be improved by lowering the H2O2 concentration and inhibited by increasing the H2O2 concentration, but results contrary to the above were obtained when UV light was used for irradiation.     

纳米掺氮TiO_2可见光降解环境内分泌干扰物BPA研究

用水湿法得到掺氮TiO2前体,热处理后得到掺氮TiO2粉体,用XRD和UV-Vis吸收光谱等手段对制备的掺氮TiO2进行了表征,并研究了N-TiO2可见光光催化降解环境内分泌干扰物双酚A。结果表明掺氮TiO2在400℃下煅烧1h,所得粉体是锐钛矿相结构,粒径约12nm,与纯TiO2相比,吸收边明显红移。催化剂掺氮TiO2具有可见光催化活性,且明显高于纯TiO2。在双酚A初始浓度为40mg/L,催化剂掺氮TiO2的煅烧温度为400℃,投加量为0.6g/L,pH=5的条件下的降解效果最好达48.91%。     

Photocatalytic degradation of Acid Blue 62 over CuO-SnO2 nanocomposite photocatalyst under simulated sunlight

The novel CuO-SnO2 nanocomposite oxide photocatalysts were prepared by simple co-precipitation method, and characterized by X- ray diffraction, transmission electron microscopy, N2 adsorption-desorption measurement and UV-Vis diffuse reflectance spectroscopy. The photocatalytic activities of CuO-SnO2, evaluated using the photodegradation of Acid Blue 62 as a probe reaction under the irradiation of Xenon light, were also found to be related to the calcination temperature and the molar ratio of Cu to Sn. The maximum photocatalytic activity of the CuO-SnO2 photocatalyst was observed to be calcined at 500~C for 3 h （the molar ratio of Cu to Sn was 1：1） due to the sample with good crystallization and high surface area. It also showed much higher photocatalytic activity in treatment dye wastewater under simulated sunlight irradiation compared to Degussa P25 TiO2.     

Photocatalytic parameters and kinetic study for degradation of dichlorophenol-indophenol (DCPIP) dye using highly active mesoporous TiO2 nanoparticles

Highly active mesoporous TiO_2 of about 6 nm crystal size and 280.7 m~2/g specific surface areas has been successfully synthesized via controlled hydrolysis of titanium butoxide at acidic medium. It was characterized by means of XRD(X-ray diffraction), SEM(scanning electron microscopy), TEM(transmission electron microscopy), FT-IR(Fourier transform infrared spectroscopy), TGA(thermogravimetric analysis), DSC(differential scanning calorimetry) and BET(Brunauer–Emmett–Teller) surface area. The degradation of dichlorophenol-indophenol(DCPIP) under ultraviolet(UV) light was studied to evaluate the photocatalytic activity of samples. The effects of different parameters and kinetics were investigated. Accordingly, a complete degradation of DCPIP dye was achieved by applying the optimal operational conditions of 1 g/L of catalyst, 10 mg/L of DCPIP, pH of 3 and the temperature at 25 ± 3°C after 3 min under UV irradiation. Meanwhile, the Langmuir–Hinshelwood kinetic model described the variations in pure photocatalytic branch in consistent with a first order power law model.The results proved that the prepared TiO_2 nanoparticle has a photocatalytic activity significantly better than Degussa P-25.     

自组装超分子前驱体制备管状氮化碳及模拟太阳光光催化降解水中双氯芬酸

石墨相氮化碳(g-C₃N₄,GCN)作为一种新型无金属二维材料,因在可见光驱动下能够降解水中新有机污染物而备受关注. 但传统石墨相氮化碳存在比表面积小与活性位点少的弊端,严重限制了其应用前景. 为改良氮化碳性能,利用超分子自组装前驱体热聚合方法成功制备了微米级管状石墨相氮化碳(TCN),使用扫描电镜(SEM)、傅里叶变换红外光谱(FT-IR)、X射线衍射(XRD)、紫外-可见漫反射光谱(UV-vis DRS)等技术手段,对TCN的形貌、元素组成、晶体结构、电化学性能等进行表征. 研究还选取双氯芬酸(DCF)作为目标污染物,探索其降解行为与机理. 结果表明:①TCN基本结构单元为七嗪环,但比表面积(20.9 m2/g)较GCN增加了1倍以上. ②TCN (100)晶面暴露增强,晶面调控暴露出更多七嗪环边缘氮原子的孤对电子,利于光生电子激发和载流子分离,从而增强光催化活性. ③TCN能带带隙为2.48 eV,小于GCN (2.69 eV),说明TCN对可见光的吸收能力提升. ④莫特-肖特基曲线、光电流、阻抗谱图和扫描伏安谱图等电化学性能测试结果表明,TCN的光生电子转移效率大幅提升,有利于抑制光生空穴-电子对(h+-e-)的复合. ⑤TCN在模拟太阳光驱动下降解双氯芬酸(DCF)的动力学试验中准一级动力学常数(k₁)达6.99×10-2 min-1,是GCN的5.5倍. ⑥电子自旋共振谱(ESR)和自由基淬灭试验证实,体系中超氧根自由基(·O₂-)是最重要的活性氧物种,光生空穴(h+)也对DCF的降解有贡献. 研究显示,以超分子自组装的方式制备石墨相氮化碳的前驱体将有助于促进氮化碳可见光吸收、加速载流子分离,并提升光催化活性.      

P123对rGO/m-TiO2薄膜微观结构及光催化性能的影响

以自制氧化石墨烯（GO）分散液和加入一定量三嵌段共聚物PEO₂₀-PPO₇₀-PEO₂₀（P123）模板剂的TiO₂前驱体溶胶为原料,用交替浸渍-提拉结合热处理和紫外灯辐照还原法在玻璃基底上制备还原氧化石墨烯/介孔TiO₂（rGO/m-TiO₂）多层膜.通过X-射线衍射（XRD）、拉曼光谱（Raman）、扫描电子显微镜（SEM）、比表面积（BET）对多层膜进行表征分析.研究了模板剂P123加入量对多层膜的晶体结构、比表面积、形貌、孔径分布情况、吸附性能、光催化性能的影响.分别在紫外光及太阳光下评价rGO/m-TiO₂多层膜对土霉素（OTC）的光催化降解效果;在紫外光条件下,研究了多层膜对OTC的光催化降解机理.结果表明：P123的引入不会引起TiO₂晶体结构的变化;适量P123的引入可以优化多层膜的孔结构,增大比表面积、提高其吸附性能,进而提高薄膜的光催化性能;rGO/TiO₂（5wt% P123）薄膜60min对OTC的吸附率达51.2%,紫外光照射135min,降解率达到90.9%;太阳光照射50min,降解率达到91.5%.在降解OTC过程中,羟基自由基（·OH）起主要作用,路径以与·OH相关的羟基化反应和仲羟基氧化反应为主.     

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.