RGO改性介孔TiO2薄膜光催化同步去除Ni2+和SDBS

以钛酸四丁酯（TBT）、天然鳞片石墨为原料,聚乙烯吡咯烷酮（PVP）为介孔模板剂,通过浸渍-提拉法辅助热处理和紫外辐照还原制备介孔RGO-TiO₂薄膜,利用XRD、SEM、BET、UV-Vis DRS、FT-IR等对其结构、形貌及性能进行表征.以Ni²⁺和十二烷基苯磺酸钠（SDBS）为目标污染物,考察了介孔RGO-TiO₂薄膜光催化去除Ni²⁺和SDBS的反应性能,探讨了GO加入量及pH值对其催化性能的影响.在最佳条件下,进一步研究Ni²⁺/SDBS共存体系中Ni²⁺的光催化还原和SDBS的光催化氧化.结果表明：GO的加入量为1.0wt%时,介孔RGO-TiO₂薄膜对单一体系Ni²⁺和SDBS的光催化效率最高,在此条件下,pH=7.5时Ni²⁺还原效率最高,pH=6时SDBS降解效率最高.综合以上实验条件,设定GO加入量为1.0wt%,pH≈6时,Ni²⁺/SDBS共存体系中Ni²⁺和SDBS去除效率均优于Ni²⁺和SDBS单一体系,此时,Ni²⁺还原率为87.9%,SDBS氧化率为95.5%.分析协同光催化机制,TiO₂-SDBS表面复合物在紫外光激发下,SDBS被氧化同时,光生电子及SDBS氧化产物CO₂·^-自由基同步还原Ni²⁺.     

CuO(-CeO_2)/SBA-15对萘氧化的催化活性及CO_2选择性研究

通过浸渍法制备CuO/SBA-15和CuO-CeO2/SBA-15两种介孔材料催化剂,采用BET、XRD、TPR和XPS等对催化剂进行表征,重点考察催化剂对萘氧化反应的催化活性及对产物CO2的选择性。BET、XRD和XPS等实验结果表明CuO高度分散于介孔分子筛SBA-15中,CeO2可促进CuO在载体上的分散,同时能降低催化剂的TPR还原温度。活性测试结果表明CuO/SBA-15对萘氧化反应的催化活性较高,但是催化氧化的CO2选择性较低,温度在380℃时CO2的生成率仅为60%左右;CeO2的添加不仅提高了CO2的生成率,15%CuO-15%CeO2/SBA-15在325℃使CO2生成率达到99%,而且CeO2增强了催化剂的稳定性。     

MnOx／介孔γ-A12O3催化臭氧化降解水中安替比林的研究

以自制的介孔γ-A12O3为载体，通过等体积浸渍法合成了MnOx／介孔γ-A12O3催化剂。采用X射线衍射（XRD）、透射电镜（TEM）以及紫外一可见漫反射（uV—VisDRS）等手段对其进行表征。结果表明，锰氧化物在介孔氧化铝载体上具有较高的分散度，并且锰以多种价态存在。高度分散以及多价态的MnOx能够提高催化臭氧化过程中电荷转移，引起更高的催化活性。MnOx／介孑γ-A12O3催化剂能够有效地提高臭氧对水中安替比林的矿化效果，对含量为10mg／L的安替比林水溶液在反应60min后基本达到完全矿化。     

磁性海藻酸铁介孔碳微球的合成及对水体中砷的去除

本研究以海藻酸钠作为基体前驱材料,利用离子交联法合成了海藻酸铁微球,然后进一步运用真空冷冻和高温裂解法制备了表面附着纳米铁氧化物的磁性海藻酸铁介孔碳微球(MAMC).同时,采用热场发射扫描电镜显微镜、X射线光电子能谱、热重分析仪、磁学测量系统、BET比表面孔径分析仪等对MAMC进行表征,并研究了MAMC对As(Ⅲ)和As(Ⅴ)的吸附性能,重点考察投加量、pH、时间、初始污染物浓度对吸附性能的影响,并对吸附过程进行了动力学拟合和等温吸附方程拟合,最后对材料进行了再生实验.结果表明,MAMC对As(Ⅲ)和As(Ⅴ)均表现出良好的吸附性能,对As(Ⅲ)的吸附能力优于As(Ⅴ);当pH值为5~7时,MAMC对两种价态As的吸附效率最优;材料的吸附量随着时间的增加而增加.动力学拟合结果表明,MAMC的吸附过程较好地满足准二级动力学方程,等温吸附曲线较好地满足于Langmuir方程.此外,使用0.1 mol·L~(-1)的Na OH对材料的再生和脱附效果较好,能够实现材料的二次利用.本研究结果对处理含砷废水提供了重要的理论依据.     

Adsorption behavior of phosphate on Lanthanum（III） doped mesoporous silicates material

A series of lanthanum doped meosoporous MCM-41 (LaxM41, x is Si/La molar ratio) was prepared by sol-gel method. The surface structure of the materials was investigated with X-ray diffraction and N2 adsorption/desorption technique. The content of La in the materials was determined by ICP. It was found that the La content of La25M41, La50M41 and La100M41 was 7.53%, 3.89% and 2.32%, respectively. The phosphate adsorption capacities increased with increasing amount of La incorporation. With 0.40 g La25M41 99.7% phosphate could be removed. The effects of Si/La molar ratio, LaxM41 dose, pH, initial concentration of phosphate solution, co-ions on phosphate adsorption were also evaluated. The phosphate adsorption kinetics of LaxM41 could be well-described by the pseudo second-order model, and Langmuir isotherm fit equilibrium data much better than the Freundlich isotherm.     

Rapid removal of bisphenol A on highly ordered mesoporous carbon

Bisphenol A (BPA) is of global concern due to its disruption of endocrine systems and ubiquity in the aquatic environment. It is important, therefore, that e orts are made to remove it from the aqueous phase. A novel adsorbent, mesoporous carbon CMK-3, prepared from hexagonal SBA-15 mesoporous silica was studied for BPA removal from aqueous phase, and compared with conventional powdered activated carbon (PAC). Characterization of CMK-3 by transmission electron microscopy (TEM), X-ray di raction, and nitrogen adsorption indicated that prepared CMK-3 had an ordered mesoporous structure with a high specific surface area of 920 m2/g and a pore-size of about 4.9 nm. The adsorption of BPA on CMK-3 followed a pseudo second-order kinetic model. The kinetic constant was 0.00049 g/(mg min), much higher than the adsorption of BPA on PAC. The adsorption isotherm fitted slightly better with the Freundlich model than the Langmuir model, and adsorption capacity decreased as temperature increased from 10 to 40°C. No significant influence of pH on adsorption was observed at pH 3 to 9; however, adsorption capacity decreased dramatically from pH 9 to 13.     

双功能介孔吸附材料的制备及其同时吸附废水中Cd2+和Cr2O72-的研究

采用直接法和后嫁接法成功制备出骨架掺杂Al原子,孔道表面接枝大位阻含胺基基团的双功能介孔硅基吸附材料.采用SAXRD、TEM、FTIR、NH3-TPD等手段对合成材料进行表征,结果表明合成的双功能AN-SBA-15具有有序的二维六方介孔结构,孔道表面的Al-OH与胺基不会发生自发复合反应.对模拟废水中Cd~(2+)和Cr_2O_7~(2-)的同时吸附去除实验研究表明AN-SBA-15具备同时吸附废水中Cd~(2+)和Cr_2O_7~(2-)离子的能力,吸附最佳pH值为5.0,吸附在40 min就达到平衡.AN-SBA-15对Cd~(2+)和Cr_2O_7~(2-)离子的吸附符合Langmuir模型,属于单层吸附.由Langmuir模型拟合出的AN-SBA-15对Cd~(2+)和Cr_2O_7~(2-)离子的最大吸附容量分别为125.9 mg·g~(-1)和156.5 mg·g~(-1).此外AN-SBA-15具备良好的脱附再生能力.     

Effect of chlorine content of chlorophenols on their adsorption by mesoporous SBA-15

Studies on the effect of the chlorine content of chlorophenols (CPs) on their adsorption from aqueous solution by mesoporous SBA-15 are important in understanding the mechanisms of CP adsorption. In this study, three CPs with different degrees of chlorine content (i.e., 2-chlorophenol, 2,6-dichlorophenol and 2,4,6-trichlorophenol) were investigated. The effects of parameters such as temperature and solution pH were studied. The results showed that CP adsorption by SBA-15 increased with increasing number of chlorine substituents and depended strongly on the temperature and solution pH. Thermodynamic parameters such as Gibbs free energy change (ΔG⁰), enthalpy change (ΔH⁰) and entropy change (ΔS⁰) were also calculated. By comparison of the adsorption coefficient of CPs with varying physical-chemical properties (size, hydrophobicity and electron density), we propose that hydrophobic interactions between CPs and the SBA-15 surface, as well as electron donor-acceptor (EDA) complexes between oxygen of the siloxane surface of SBA-15 (e^--donor) and the πup-system of the CPs (e^--acceptor), were dominant adsorption mechanisms.     

二胺基改性有序多孔SBA-15对溶液中Cd2+离子的吸附研究

具有高度有序孔道结构的SBA-15是一种广受关注的新型吸附材料,为增加其对溶液重金属离子的吸附性能,选用水热-后期接枝的合成方法,制备出二胺基改性多孔二氧化硅2N-SBA-15,并用透射电镜、X射线衍射、氮气吸附-解吸和红外光谱等手段对其结构进行了表征.并以其为吸附剂,通过批实验的方法讨论了吸附时间、体系初始pH值、吸附剂用量和温度等因素对水溶液中Cd2+吸附的影响,同时结合Zeta电势和XPS分析对其吸附机制进行了探讨.结果表明,合成的SBA-15具有规则多孔特征,SBA-15对Cd2+的吸附受体系pH控制;未改性的SBA-15对Cd2+的吸附量较小,胺基改性可以显著增强SBA-15对Cd2+的吸附能力.在100 mL 25 mg.L-1的Cd2+溶液中,2N-SBA-15的用量在7.5～20 mg之间均能对Cd2+的吸附能力约达95%左右.2N-SBA-15对溶液中Cd2+的吸附很迅速,并在30 min内达到吸附平衡;随着体系温度从25℃增加到35℃,2N-SBA-15对溶液中Cd2+的吸附率从94.73%增加到98.22%.吸附等温线可用Langmuir模型描述,在298 K时Cd2+的最大吸附量为0.9 mmol.g-1,0.1 mol.L-1HCl溶液对Cd2+的洗脱率接近93%.结合pH、温度、Zeta电势和XPS分析结果,可以推测出2N-SBA-15对Cd2+的吸附机制是包含物理吸附、离子交换和络合反应等的复杂吸附过程.2N-SBA-15是一种对水体Cd2+具有较好吸附能力的吸附材料.     

CuO/AC@SiO_2的制备及对H_2S的深度脱除

采用模板法在CuO外包裹一层具有介孔结构的SiO_2,制备了CuO/AC@SiO_2。采用X射线衍射仪对CuO/AC@SiO_2的结构和催化活性位点进行了表征。通过固定床气固吸附实验,研究了CuO/AC@SiO_2对H_2S的吸附脱除性能。表征结果显示,CuO是催化氧化H_2S的活性中心,被氧化成Cu2O后吸附脱除H_2S的性能下降。实验结果表明:CuO/AC吸附H_2S时的有效穿透时间为117 min,CuO/AC@SiO_2的有效穿透时间提高到141 min,CuO/AC@SiO_2对H_2S的吸附性能明显提高;以Cu(NO_3)_2为前驱体的CuO/AC@SiO_2对H_2S的吸附量高于以Cu(AC)_2为前驱体;在Cu(NO_3)_2为前驱体、m(正硅酸乙酯)∶m(CuO/AC)=0.7、吸附温度为90℃的最佳条件下,CuO/AC@SiO_2对H_2S的吸附量达17.40 mg/g。