Efficient visible light photo-Fenton-like degradation of organic pollutants using in situ surface-modified BiFeO3 as a catalyst

The visible light photo-Fenton-like catalytic performance of BiFeO₃ nanoparticles was investigated using Methyl Violet (MV), Rhodamine B (RhB) and phenol as probes. Under optimum conditions, the pseudo first-order rate constant (k) was determined to be 2.21×10^-2, 5.56×10^-2 and 2.01×10^-2 min^-1 for the degradation of MV (30 μmol/L), RhB (10 μmol/L) and phenol (3 mmol/L), respectively, in the BiFeO₃-H₂O₂-visible light (Vis) system. The introduction of visible light irradiation increased the k values of MV, RhB and phenol degradation 3.47, 1.95 and 2.07 times in comparison with those in dark. Generally, the k values in the BiFeO₃-H₂O₂-Vis system were accelerated by increasing BiFeO₃ load and H₂O₂ concentration, but decreased with increasing initial pollutant concentration. To further enhance the degradation of pollutants at high concentrations, BiFeO₃ was modified with the addition of surface modifiers. The addition of ethylenediamineteraacetic acid (EDTA, 0.4 mmol/L) increased the k value of MV degradation (60 μmol/L) from 1.01×10^-2 min^-1 in the BiFeO₃-H₂O₂-Vis system to 1.30 min^-1 in the EDTA-BiFeO₃-H₂O₂-Vis system by a factor of 128. This suggests that in situ surface modification can enable BiFeO₃ nano-particles to be a promising visible light photo-Fenton-like catalyst for the degradation of organic pollutants.     

Effect of chromium oxide as active site over TiO2-PILC for selective catalytic oxidation of NO

This study introduced TiO2-pillared clays （TiO2-PILC） as a support for the catalytic oxidation of NO and analyzed the performance of chromium oxides as the active site of the oxidation process. Cr-based catalysts were prepared by a wet impregnation method. It was found that the 10 wt.% chromium doping on the support achieved the best catalytic activity. At 350℃, the NO conversion was 61% under conditions of GHSV = 23600 hr^-l. The BET data showed that the support particles had a mesoporous structure. Hz-TPR showed that Cr（10）TiP （10 wt.% Cr doping on TiO2-PILC） clearly exhibited a smooth single peak. EPR and XPS were used to elucidate the oxidation process. During the NO ＋ O2 adsorption, the intensity of evolution of superoxide ions （O2^-） increased. The content of Cr^3＋ on the surface of the used catalyst was 40.37%, but when the used catalyst continued adsorbing NO, the Cr^3＋ increased to 50.28%. Additionally, Oα/Oβ increased markedly through the oxidation process. The NO conversion decreased when SO2 was added into the system, but when the SO2 was removed, the catalytic activity recovered almost up to the initial level. FT-IR spectra did not show a distinct characteristic peak of SO4^2-.     

An improved GC-ECD method for measuring atmospheric N2O

Gas chromatography equipped with an electron capture detector (GC-ECD) has been widely used for measuring atmospheric N2O,but nonlinear response and the influence of atmospheric CO2 have been recognized as defects for quantification.An original GCECD method using N 2 as carrier gas was improved by introducing a small flow rate of CO2 makeup gas into the ECD,which could well remedy the above defects.The N2O signal of the improved method was 4-fold higher than that of the original method and the relative standard deviation was reduced from > 1% to 0.31%.N2O concentrations with different CO2 concentrations (172.2×10-6-1722×10-6mol/mol) measured by the improved GC-ECD method were in line with the actual N2O concentrations.However,the N2O concentrations detected by the original method were largely biased with a variation range of-4.5%～7%.The N2O fluxes between an agricultural field and the atmosphere measured by the original method were greatly overestimated in comparison with those measured by the improved method.Good linear correlation (R2=0.9996) between the response of the improved ECD and N2O concentrations (93×10-9-1966×10-9mol/mol) indicated that atmospheric N2O could be accurately quantified via a single standard gas.Atmospheric N2O concentrations comparatively measured by the improved method and a high precision GC-ECD method were in good agreement.     

Involvements of chloride ion in decolorization of Acid Orange 7 by activated peroxydisulfate or peroxymonosulfate oxidation

The effects of Cl^- on the decolorization of AO7 by SO₄^·- based-peroxydisulfate or peroxymonosulfate oxidation under various activated conditions were different.     

Observed levels and trends of gaseous SO2 and HNO3 at Mt. Waliguan, China: Results from 1997 to 2009

Long-term measurements of SO2 and HNO3,particularly those from the background sites,are rarely reported.We present for the first time the long-term measurements of SO2 and HNO3 at Waliguan(WLG),the only global baseline station in the back-land of the Eurasian Continent.The concentrations of SO2 and HNO3 were observed at WLG from 1997 to 2009.The observed annual mean concentrations of SO2 and HNO3 at WLG were 1.28±0.41 and 0.22±0.19μg/m3,respectively.The HNO3 concentrations were much higher in warmer seasons than in colder seasons,while the SO2 concentrations showed a nearly reversed seasonal pattern.In most months,the concentration of HNO3 was significantly correlated with that of SO2,suggesting that some common factors influence the variations of both gases and the precursors of HNO3 may partially be from the SO2-emitting sources.The SO2 concentration had a very significant(P < 0.0001) decreasing trend(-0.2μg/(m3·yr)) in 1997-2002,but a significant(P < 0.05) increasing trend(+0.06 μg/(m 3 ·yr)) in 2003-2009.The HNO3 concentration showed no statistically significant trend during 1997-2009.While the decrease of SO2 in 1997-2002 agrees with the trend of global SO2 emissions,the increase in 2003-2009 is not consistent with the decreasing trends in many other regions over the world.Trajectory analysis suggests that the airmasses from the northern Qinghai-Tibetan Plateau and the Takla Makan Desert regions contributed significantly to the increasing trends of SO2 and HNO3 at WLG in 2003-2009,with a rate of +0.13μg/(m3·yr) and +0.007μg/(m3·yr),respectively.     

Synthesis of novel CeO2-BiVO4/FAC composites with enhanced visible-light photocatalytic properties

To utilize visible light more effectively in photocatalytic reactions, a fly ash cenosphere （FAC）-supported CeO2-BiV04 （CeO2-BiVO4/FAC） composite photocatalyst was prepared by modified metalorganic decomposition and impregnation methods. The physical and photophysical properties of the composite have been characterized by X-ray diffraction （XRD）, scanning electron microscope （SEM） and energy dispersive X-ray spectroscopy （EDX）, X-ray photoelectron spectroscopy （XPS）, and UV-Visible diffuse reflectance spectra. The XRD patterns exhibited characteristic diffraction peaks of both BiVO4 and Ce02 crystalline phases. The XPS results showed that Ce was present as both Ce4＋ and Ce3＋ oxidation states in Ce02 and dispersed on the surface of BiV04 to constitute a p-n heterojunction composite. The absorption threshold of the CeO2-BiVO4/FAC composite shifted to a longer wavelength in the UV-Vis absorption spectrum compared to the pure Ce02 and pure BiV04. The composites exhibited enhanced photocatalytic activity for Methylene Blue （MB） degradation under visible light irradiation. It was found that the 7.5 wt.% CeO2-BiVO4/FAC composite showed the highest photocatalytic activity for MB dye wastewater treatment.     

Size distributions of aerosol and water-soluble ions in Nanjing during a crop residual burning event

To investigate the impact on urban air pollution by crop residual burning outside Nanjing, aerosol concentration, pollution gas concentration, mass concentration, and water-soluble ion size distribution were observed during one event of November 4-9, 2010. Results show that the size distribution of aerosol concentration is bimodal on pollution days and normal days, with peak values at 60-70 and 200-300 nm, respectively. Aerosol concentration is 10⁴ cm^-3. nm^-1 on pollution days. The peak value of spectrum distribution of aerosol concentration on pollution days is 1.5-3.3 times higher than that on a normal day. Crop residual burning has a great impact on the concentration of fine particles. Diurnal variation of aerosol concentration is trimodal on pollution days and normal days, with peak values at 03:00, 09:00 and 19:00 local standard time. The first peak is impacted by meteorological elements, while the second and third peaks are due to human activities, such as rush hour traffic. Crop residual burning has the greatest impact on SO₂ concentration, followed by NO₂, O₃ is hardly affected. The impact of crop residual burning on fine particles (< 2.1 μm) is larger than on coarse particles (> 2.1 μm), thus ion concentration in fine particles is higher than that in coarse particles. Crop residual burning leads to similar increase in all ion components, thus it has a small impact on the water-soluble ions order. Crop residual burning has a strong impact on the size distribution of K⁺, Cl^-, Na⁺, and F^- and has a weak impact on the size distributions of NH₄⁺, Ca²⁺, NO₃^- and SO₄^2-.     

BiOCl/TiO_2复合材料的可见光活性及机理研究

采用水热法和溶胶凝胶法制备新型BiOCl/TiO2复合材料并明确了最优的掺杂比例(2%).随后利用X射线衍射(XRD)、紫外可见漫反射(DRS)、透射电镜(TEM)和X射线光电子能谱(XPS)对该材料进行表征.由于禁带宽度较大,纯BiOCl和TiO2的可见光催化性能极差,然而二者复合后,同条件下的苯降解率却大幅提升,可以达到40%以上.经证实,催化剂制备过程中,Bi的状态发生变化,在TiO2导、价带之间插入新的能级,使其禁带宽度变窄,电子可以实现可见光跃迁.     

Effects of nitrogen and phosphorus concentrations on the bioaccumulation of polybrominated diphenyl ethers by Prorocentrum donghaiense

The growth, cellular total lipids, bioaccumulation amount, and bioaccumulation factors (BAFs) of 2,4,4 ′ -tribromodiphenyl ether (BDE28), 2,2 ′ ,4,4 ′ -tetrabromodiphenyl ether (BDE47), and 2,2 ′ ,4,4 ′ ,5-pentabromodiphenyl ether (BDE99) in a semi-continuous culture of Prorocentrum donghaiense were studied in relation to nitrate (0, 128, and 512 μmol/L) and phosphate (0, 8, and 32 μmol/L) concentrations. The BDE28, BDE47, and BDE99 content per cell under 0 μmol N/L were 3.77 × 10 6 , 3.95 × 10 6 , and 4.32 × 10 6 ng/cell, respectively, which were significantly higher than those under 128 and 512 μmol N/L. A nearly 5-fold increase in polybrominated diphenyl ether (PBDE) content per algal cell was found between 0 and 8 μmol P/L and between 8 and 32 μmol P/L. With increasing N and P concentrations, the PBDE content per volume of algal culture and the accumulation percentage of available PBDEs declined slightly. The BAFs for the PBDEs based on lipids showed that the logBAF lip under 0 μmol N/L was higher than those under 128 and 512 μmol N/L. The logBAF lip under 0 μmol P/L was higher than that under 8 μmol P/L but lower than that under 32 μmol P/L. Correlation analysis indicated a significant negative correlation between nutrient concentration and cellular total lipids, as well as the PBDE content per cell. The results indicate that different N and P concentrations change the total lipids content of P. donghaiense, thereby resulting in varying PBDE accumulation.     

Composition, source, mass closure of PM2:5 aerosols for four forests in eastern China

PM2.5 aerosols were collected in forests along north latitude in boreal-temperate, temperate, subtropical and tropical climatic zones in eastern China, i.e., Changbai Mountain Nature Reserve (CB), Dongping National Forest Park in Chongming Island (CM), Dinghu Mountain Nature Reserve (DH), Jianfengling Nature Reserve in Hainan Island (HN). The mass concentrations of PM2.5, organic carbon (OC), elemental carbon (EC), water soluble organic carbon (WSOC) as well as concentrations of ten inorganic ions (F-, Cl-, NO3-, SO42-, C2O42-, NH4+, Na+, K+, Ca2+, Mg2+) were determined. Aerosol chemical mass closures were achieved. The 24-hr average concentrations of PM2.5 were 38.8, 89.2, 30.4, 18 μg/m3 at CB, CM, DH and HN, respectively. Organic matter and EC accounted for 21%-33% and 1.3%-2.3% of PM2.5 mass, respectively. The sum of three dominant secondary ions (SO42-, NO3-, NH4+) accounted for 44%, 50%, 45% and 16% of local PM2.5 mass at CB, CM, DH and HN, respectively. WSOC comprised 35%-65% of OC. The sources of PM2.5 include especially important regional anthropogenic pollutions at Chinese forest areas.     

铋修饰BiOBr/g-C3N4异质结光催化剂合成及其可见光催化性能研究

以尿素为氮化碳（g-C₃N₄）合成的前驱体,柠檬酸（CA）作为还原剂,以一步溶剂热法制备铋修饰BiOBr/g-C₃N₄异质结型复合光催化剂（简称Bi/BiOBr/g-C₃N₄）.通过调控CA的投加量,实现了对Bi/BiOBr/g-C₃N₄可见光催化的可控制备,并以RhB为目标污染物研究其光催化活性.结果表明：1被还原在BiOBr表面上的Bi金属含量随还原剂CA投加量增加而增加,CA最佳投加量为2 mmol,Bi/BiOBr/g-C₃N₄的光生载流子的分离效率最高、禁带宽度最窄（2.43 eV）.而未采用CA改性的BiOBr/g-C₃N₄,其禁带宽度为2.8 eV.2投加CA能调控BiOBr形貌（如结晶度、尺寸大小以及晶粒平均厚度）,进而调控其光催化活性.当CA投加量为2 mmol时,BiOBr纳米微球大小适中,结晶度最高,晶粒平均厚度最小.3Bi修饰BiOBr/g-C₃N₄光催化剂对RhB的可见光降解率高达99.8%,其光催化降解速率达到0.097 k·min^-1,是BiOBr/g-C₃N₄光催化速率（0.026 k·min^-1）的3.73倍.4Bi/BiOBr/g-C₃N₄异质结光降解机理是：在Bi金属等离子体效应、BiOBr表面氧空缺与异质结的协同作用下,提高了Bi/BiOBr/g-C₃N₄异质结对可见光吸收能力和光生载流子的分离效率,从而实现对RhB的高效降解.     

CH3O·引发的溴酸盐还原机制探究

针对溴酸盐(BrO-3)污染,本研究以三聚氰胺为前驱体制备石墨相氮化碳(g-C3N4)为自由基诱导催化材料.通过XRD、TEM、UV/Vis-DRS对其物相组成和光催化性能进行表征发现,制备的层状g-C3N4有稳定片层结构及可见光响应的禁带宽度(~2.70 e V).可见光照射下,g-C3N4表面产生的光生载流子不能直接还原溴酸盐.然而,若有有机小分子(如甲醇)存在,光催化还原效率迅速增大.通过原位电子顺磁共振谱(EPR)及对材料表面的光电化学测试分析,我们探索了该体系的光催化还原Br O-3的机制.结果表明,g-C3N4带隙较窄其空穴氧化能力较弱,在光催化过程中空穴只能将甲醇分子转化为CH3O·自由基,因而甲醇分子的存在提升了光生载流子的分离效率,加剧了自由基的累积.该自由基具有较高的还原活性,可迅速将水相中的溴酸根还原至溴离子.     

Nitrous oxide emissions from black soils with different pH

N₂O fluxes as a function of incubation time from soil with different available N contents and pH were determined. Cumulative carbon dioxide (CO₂) emissions were measured to indicate soil respiration. A 144-hr incubation experiment was conducted in a slightly acidic agricultural soil (pH_H2O 5.33) after the pH was adjusted to four different values (3.65, 5.00, 6.90 and 8.55). The experiments consisted of a control without added N, and with NH₄⁺-N and NO₃^--N fertilization. The results showed that soil pH contributed significantly to N₂O flux from the soils. There were higher N₂O emissions in the period 0-12 hr in the four pH treatments, especially those enhanced with N-fertilization. The cumulative N₂O-N emission reached a maximum at pH 8.55 and was stimulated by NO₃^--N fertilization (70.4 μg/kg). The minimum emissions appeared at pH 3.65 and were not stimulated by NO₃^--N or NH₄⁺-N fertilization. Soil respiration increased significantly due to N-fertilization. Soil respiration increased positively with soil pH (R² = 0.98, P < 0.01). The lowest CO₂-C emission (30.2 mg/kg) was presented in pH 3.65 soils without N-fertilization. The highest CO₂-C emissions appeared in the pH 8.55 soils for NH₄⁺-N fertilization (199 mg/kg). These findings suggested that N₂O emissions and soil respiration were significantly influenced by low pH, which strongly inhibits soil microbial nitrification and denitrification activities. The content of NO₃^--N in soil significantly and positively affected the N₂O emissions through denitrification.     

Investigation of potential interferences on the measurement of dissolved reactive phosphate using zirconium oxide-based DGT technique

A diffusive gradients in thin films (DGT) technique based on hydrous zirconium oxide (Zr-oxide) has been recently developed for the measurement of dissolved reactive phosphate (DRP). In this study, the detailed performance of the DGT technique is reported. Spiking experiments revealed that several orthophosphate monoester compounds contributed to the Zr-oxide DGT measurements of DRP. However, such a phenomenon is unlikely to occur during field conditions due to the low concentration of organic P in typical natural waters. The presence of Cl- (up to 106 g/L), SO42- (up to 16 g/L), HCO3- (up to 817 g/L), and AsO2- and AsO 3 4 (both up to 1 mg As/L) in solutions had negligible effects on the measurement of DRP. The threshold concentrations of Cl-, SO42- and HCO3- have been increased from previous reports for the measurements of DRP using other adsorbent-based DGT techniques. The capacity for DGT measurements of DRP decreased with increasing solution pH (4.2-9.2). The lowest capacity (95 μg P/m2 at pH 9.2) was still greater than that of other DGT techniques that are usually used for the measurement of DRP (2-12 μg P/cm2 ). The Zr-oxide binding gel could be stored for up to 2 years without any aging effect. This period of validity was considerably longer than the ferrihydrite binding gel that is commonly used in present DGT devices (6 months). The field application revealed that the concentrations of DRP measured in three fresh water samples using the Zr-oxide DGT technique were in agreement with those of the traditional colorimetric method.     

Synthesis, crystal structure, photodegradation kinetics and photocatalytic activity of novel photocatalyst ZnBiYO4

ZnBiYO₄ was synthesized by a solid-state reaction method for the first time. The structural and photocatalytic properties of ZnBiYO₄ were characterized by X-ray diffraction, scanning electron microscopy, X-ray photoelectron spectroscopy and UV-Vis diffuse reflectance. ZnBiYO₄ crystallized with a tetragonal spinel structure with space group I41/A. The lattice parameters for ZnBiYO₄ were a = b = 11.176479 Å and c= 10.014323 Å. The band gap of ZnBiYO₄ was estimated to be 1.58 eV. The photocatalytic activity of ZnBiYO₄ was assessed by photodegradation of methyl orange under visible light irradiation. The results showed that ZnBiYO₄ had higher catalytic activity compared with N-doped TiO₂ under the same experimental conditions using visible light irradiation. The photocatalytic degradation of methyl orange with ZnBiYO₄ or N-doped TiO₂ as catalyst followed first-order reaction kinetics, and the first-order rate constant was 0.01575 and 0.00416 min^-1 for ZnBiYO₄ and N-doped TiO₂, respectively. After visible light irradiation for 220 min with ZnBiYO₄ as catalyst, complete removal and mineralization of methyl orange were observed. The reduction of total organic carbon, formation of inorganic products, SO₄^2- and NO₃^-, and evolution of CO₂ revealed the continuous mineralization of methyl orange during the photocatalytic process. The intermediate products were identified using liquid chromatography- mass spectrometry. The ZnBiYO₄/(visible light) photocatalysis system was found to be suitable for textile industry wastewater treatment and could be used to solve other environmental chemical pollution problems.     

Ti0.7W0.3O2@BiVO4 p-n复合异质结构界面光催化剂的制备及其可见光催化降解苯酚机理的研究

设计并制备了新型Ti_0.7W_0.3O₂/BiVO₄ p-n复合异质结构界面光催化剂应用于可见光条件下降解模拟含苯酚污染物的废水.采用粉末X射线衍射（PXRD）、扫描电镜（SEM）、固体粉末紫外漫反射（DRS）及X射线光电子能谱（XPS）等技术表征了Ti_0.7W_0.3O₂/BiVO₄ p-n复合异质结构界面的性状.结果显示BiVO₄纳米粒子均匀地分布在Ti_0.7W_0.3O₂纳米颗粒周围并构筑了稳定的p-n复合异质结构界面.Ti_0.7W_0.3O₂/BiVO₄ p-n复合异质结构界面光催化剂具有更宽的可见光响应范围和更低的能带宽度.纯BiVO₄和Ti_0.7W_0.3O₂纳米颗粒的导带位置分别为-0.62 eV和0.56 eV.优化了Ti_0.7W_0.3O₂/BiVO₄ p-n复合异质结构界面光催化剂降解苯酚的条件（即：pH值为4.5,催化剂用量为0.60 g·L^-1和苯酚初始浓度95 mg·L^-1）,质量分数为5%Ti_0.7W_0.3O₂/BiVO₄表现出最高的苯酚催化活性且初始降解速率常数（k）为0.01137 min^-1.6次连续光催化降解苯酚后,Ti_0.7W_0.3O₂/BiVO₄ p-n复合异质结构表现出良好的稳定性和可循环使用性.自由基捕获结果说明3种自由基均参加了苯酚的光催化降解过程中,且氧化能力由强到弱顺序为：羟自由基（·OH^-） > 过氧化物自由基阴离子（·O^2-） > 光生空穴（h⁺）.总有机碳结果表明苯酚在降解的过程中是先产生了中间降解产物,最后这些中间产物再矿化为无机的CO₂和H₂O.利用对苯二甲酸（TA）荧光探针证明了Ti_0.7W_0.3O₂/BiVO₄ p-n复合异质结构界面光催化剂降解苯酚为羟自由基（·OH^-）机理反应;同时,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）探究了苯酚的中间降解产物,推测了苯酚在Ti_0.7W_0.3O₂/BiVO₄ p-n复合异质结构界面上可能的降解机理.     

Soil warming effect on net ecosystem exchange of carbon dioxide during the transition from winter carbon source to spring carbon sink in a temperate urban lawn

The significant warming in urban environment caused by the combined effects of global warming and heat island has stimulated widely development of urban vegetations. However, it is less known of the climate feedback of urban lawn in warmed environment. Soil warming effect on net ecosystem exchange (NEE) of carbon dioxide during the transition period from winter to spring was investigated in a temperate urban lawn in Beijing, China. The NEE (negative for uptake) under soil warming treatment (temperature was about 5℃ higher than the ambient treatment as a control) was -0.71 μmol/(m².sec), the ecosytem was a CO₂ sink under soil warming treatment, the lawn ecosystem under the control was a CO₂ source (0.13 μmol/(m².sec)), indicating that the lawn ecosystem would provide a negative feedback to global warming. There was no significant effect of soil warming on nocturnal NEE (i.e., ecosystem respiration), although the soil temperature sensitivity (Q₁₀) of ecosystem respiration under soil warming treatment was 3.86, much lower than that in the control (7.03). The CO₂ uptake was significantly increased by soil warming treatment that was attributed to about 100% increase of α (apparent quantum yield) and A_max (maximum rate of photosynthesis). Our results indicated that the response of photosynthesis in urban lawn is much more sensitive to global warming than respiration in the transition period.     

FeTiO3/TiO2纳米异质结的制备和可见光催化性能

采用水热法和溶胶凝胶法制备了新型FeTiO3/TiO2纳米异质结复合材料,并明确了最优的掺杂比例(0.5%).随后利用X射线衍射能谱(XRD)、紫外-可见漫反射光谱(UV-Vis DRS)、扫描电镜(SEM)和透射电镜(TEM)等手段对该复合材料进行表征,证实了其结晶度、吸光度随掺杂量的规律性变化.电镜照片显示,该复合材料具有蓬松多孔的微观结构,且晶格条纹清晰、分散度高,有利于光电子的传导.对苯的降解实验表明,相比于纯TiO2,该催化剂的气相可见光催化能力大幅提高,降解率提升了3倍,达到40%,而CO2生成量提升了5倍,超过300 ppm.同时,电化学测试和电子顺磁共振谱(ESR)等均证实,FeTiO3的窄能带能够提高TiO2的光响应,实现可见光激发;而二者的能带相互匹配,有助于转移光生载流子,实现电子-空穴的高效分离,进而其光生电子和自由基生成能力大幅增强,因此,表现出了较强、较稳定的光催化活性.     

Comparison of UV/PDS and UV/H2O2 processes for the degradation of atenolol in water

UV/H2O2 and UV/peroxodisulfate (PDS) processes were adopted to degrade a typical β-blocker atenolol (ATL). The degradation efficiencies under various operational parameters (oxidant dosage, pH, HCO3-, humic acid (HA), NO3- , and Cl-) were compared. Principal factor analysis was also performed with a statistical method for the two processes. It was found that increasing the specific dosage of the two peroxides ([peroxide]0/[ATL]0 ) ranging from 1:1 to 8:1 led to a faster degradation rate but also higher peroxide residual. Within the pH range 3-11, the optimum pH was 7 for the UV/PDS process and elevating pH benefitted the UV/H 2O2 process. The presence of HCO3- , HA, and Cl adversely affected ATL oxidation in both processes. The NO3- concentration 1-3 mmol/L accelerated the destruction of ATL by the UV/PDS process, but further increase of NO3- concentration retarded the degradation process, contrary to the case in the UV/H2O2 process. The rank orders of effects caused by the six operational parameters were pH ≈ specific dosage > [HA]0 > [NO3-]0 > [HCO3-]0 > [Cl-]0 for the UV/H2O2 process and specific dosage > pH > [HA]0 > [NO3-]0 > [HCO3-]0 >[Cl-]0 for the UV/PDS process. The UV/PDS process was more sensitive to changes in operational parameters than the UV/H2O2 process but more efficient in ATL removal under the same conditions.     

Fe2O3/TiO2负载膨胀珍珠岩光催化降解罗丹明B

为获得高效催化活性的光催化材料,研究不同煅烧氛围对材料在可见光下催化性能的影响,以膨胀珍珠岩（EP）为载体,采用溶胶-凝胶法,在不同煅烧氛围（O₂和/或NH₃）下制备Fe₂O₃/TiO₂负载EP的光催化复合材料〔Fe₂O₃-TEP（O₂）、Fe₂O₃-TEP（NH₃）、Fe₂O₃-TEP（O₂,NH₃）、Fe₂O₃-TEP（NH₃,O₂）〕,采用EDS（X-射线色散能谱）、BET（比表面积及孔径分析）、XRD（X射线衍射）、SEM（扫描电子显微镜）、XPS（X射线光电子能谱）等对复合材料进行表征,并研究了其在可见光下对罗丹明B的光催化降解效果.结果表明:①复合材料成功负载了Ti、Fe元素,负载的TiO₂以锐钛矿型存在,Fe₂O₃的掺杂增强了TiO₂对可见光的响应能力;②不同的煅烧氛围明显影响复合材料的晶粒尺寸、比表面积和光催化性能,其中,Fe₂O₃-TEP（O₂,NH₃）的光催化性能最好,4 h后罗丹明B降解率达到87.59%,Fe₂O₃-TEP（NH₃,O₂）、Fe₂O₃-TEP（O₂）和Fe₂O₃-TEP（NH₃）4 h后对罗丹明B的降解率则分别为65.02%、62.48%和47.48%;③在试验条件下,复合材料的光催化反应符合一阶反应动力学方程,Fe₂O₃-TEP（O₂,NH₃）、Fe₂O₃-TEP（NH₃,O₂）、Fe₂O₃-TEP（O₂）和Fe₂O₃-TEP（NH₃）相应的降解速率常数分别为0.008 3、0.004 3、0.004 3和0.002 7 min-1.研究显示,通过溶胶-凝胶法所制备的复合材料（Fe₂O₃-TEP）经煅烧后所得矿相均一;Fe₂O₃掺杂TiO₂可形成Ti—O—Fe键,减小TiO₂固有的禁带宽度;复合材料光催化性能也受到煅烧氛围的影响,先O₂后NH₃煅烧条件下所得材料的光催化性能最佳.