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1.
通过一步水热法制备了Cu-石墨烯(Cu-RGO)催化剂,实现了Cu纳米颗粒的可控生长和氧化石墨烯(GO)还原的同步进行,并将所制备的Cu-RGO用于亚甲基蓝(MB)的催化降解研究。在H2O2存在条件下,当GO与Cu的质量比为3∶17时,经过4 h催化反应,Cu-RGO催化剂对亚甲基蓝的降解率可达到99.5%,经过6次循环使用对亚甲基蓝的降解率仍保持在98.1%以上,CuRGO催化剂展现了较高的催化活性及良好的稳定性。  相似文献   

2.
采用机械球磨法成功制备Ag3PO4/MoS2纳米片复合催化剂。运用X射线衍射仪(XRD)、透射电子显微镜(TEM)、扫描电子显微镜(SEM)、紫外可见漫反射光谱(UV-Vis)和荧光发射光谱(PL)对复合催化剂的结构和形貌进行了表征。结果表明,Ag3PO4纳米粒子均匀地附着在MoS2纳米片层结构上,两者形成紧密结合。以亚甲基蓝为模拟污染物,研究复合催化剂在可见光照射下的光催化特性;通过循环实验考察复合催化剂的稳定性。结果显示,含有1%的MoS2纳米片与Ag3PO4形成的复合催化剂在30 min内对亚甲基蓝的降解率为95%,其降解动力学常数是纯相Ag3PO4的2倍。经过5次循环实验后复合催化剂对于亚甲基蓝的降解率为84%,而纯Ag3PO4对于亚甲基蓝的降解率仅为35%。Ag3PO4/MoS2纳米片复合催化剂具有优良的光催化活性和高稳定性,主要归因于二硫化钼纳米片与磷酸银形成异质结,磷酸银激发的电子和二硫化钼纳米片产生的空穴直接复合,从而促使光生电子从磷酸银晶体表面快速分离,减轻了磷酸银的光电子腐蚀,同时也提高了复合物的光催化活性。  相似文献   

3.
以水热法制备的20% g-C3N4/TiO2(20%为质量分数)为基,将其与不同质量分数的氧化石墨烯(GO)复合制备出可见光催化性能优良的GO/TiO2-g-C3N4三元复合材料。利用X射线衍射(XRD)、扫描电子显微镜(SEM)、X射线光电子能谱(XPS)、紫外-可见漫反射光谱(UV-Vis DRS)、光致荧光光谱(PL)、瞬态光电流响应等分析测试手段对样品的结构、形貌和光电性能进行表征。研究了不同质量分数GO的加入对GO/TiO2-g-C3N4在可见光下降解亚甲基蓝(MB)溶液的影响。结果表明: g-C3N4/TiO2与GO复合后,锐钛矿相TiO2颗粒形成小团簇附着在g-C3N4和GO片层表面,且当GO含量为15%时,TiO2形成的团簇最小,对可见光的吸收最多且光生电子-空穴对的复合率最低。可见光照射下,15% GO/TiO2-g-C3N4复合材料对MB的降解率在3 h内可达98.4%,且其降解速率常数(0.022 4 min-1)分别是纯TiO2(0.001 5 min-1)和g-C3N4/TiO2(0.002 5 min-1)的15倍和9倍。  相似文献   

4.
以氯化铜(CuCl2·2H2O)、硫脲((NH22CS,Tu)、1,2-丙二醇(1,2-PG)、氯化铁(FeCl3·6H2O)及氧化石墨烯(GO)为原料,通过溶剂热法制备了具有可见光活性的Fe-CuS/RGO复合材料。采用XRD、SEM、TEM、Raman、XPS、TG、UV-Vis等手段对产品进行了表征,并以亚甲基蓝(MB)为目标降解物对其可见光催化活性进行了研究。光催化结果表明:在汞灯(150 W)下照射140 min,CuS、CuS/RGO和Fe-CuS/RGO对MB的脱色率分别为41.2%、81.5%和90.6%。Fe-CuS/RGO对MB的降解效率较CuS/RGO和CuS有较大提升,可能原因是Fe元素有利于电荷在CuS与RGO界面间传输,降低了光生电子-空穴对的复合几率,进而提高了光催化活性。  相似文献   

5.
马明远  李佑稷  陈伟  李雷勇 《催化学报》2010,31(10):1221-1226
 以钛酸丁酯为前驱体, 封堵的火山岩为载体, 通过超临界 CO2 辅助制备了 TiO2 外负载火山岩复合体, 并将其用于光催化降解亚甲基蓝反应, 考察了溶液 pH 值及催化剂浓度对反应性能的影响. 结果表明, TiO2 外负载火山岩复合体的光催化性能优于纯 TiO2 和 TiO2 体负载火山岩复合体. 这是由于外负载复合体对亚甲基蓝的高吸附性、小晶粒尺寸的 TiO2 颗粒以及吸附和光催化降解间的协同效应. 亚甲基蓝浓度为 1.5 mg/L, 溶液 pH 为 8, 催化剂浓度为 6.8 mg/L 时, 外负载 TiO2 火山岩复合体上亚甲基蓝降解速率最高, 且使用后的催化剂仍具有高的光催化活性.  相似文献   

6.
基于低成本、无毒害、光吸收性强的四氧化三铁(Fe3O4)和大比表面、高稳定性的水滑石(LDHs),制备了Fe3O4@MAl-LDHs (M=Zn、Co、Ni)复合物并用于典型偶氮染料亚甲基蓝的光催化降解。通过X射线粉末衍射(XRD)、紫外可见(UV-Vis)吸收光谱、扫描电子显微镜(SEM)、透射电子显微镜(TEM)以及N2吸附-脱附测试表征了复合材料的组成与结构。光催化实验表明,最佳反应条件为催化剂用量50 mg、光照强度500 W、pH=9、反应温度40℃,此时,Fe3O4@MAl-LDHs复合材料对亚甲基蓝的降解率从LDHs的23.2%大幅提升到87.0%。LDHs对亚甲基蓝的降解主要来自·OH,而Fe3O4@CoAl-LDHs光降解活性的贡献主要由·OH和空穴提供。此外,LDHs和Fe3O4@CoAl-LDHs的电化学性质也存在较大差异。  相似文献   

7.
采用溶剂热法合成了不同Fe掺杂含量的Fe-CeO2纳米粉体及不同氮源掺杂的N-10% Fe-CeO2nFe/(nFe+nCe)=10%)纳米粉体。利用TEM、XRD、XPS、Raman和UV-Vis等技术对其微观结构与形貌进行了表征,并通过降解亚甲基蓝溶液对其光催化性能进行了研究。结果表明,Fe掺杂可以提高CeO2的光催化性能,以10% Fe-CeO2催化效率最高,对亚甲基蓝的降解率从纯CeO2的67%提高到95%。而N的掺杂可调节10% Fe-CeO2催化性能。以浓氨水为氮源的N-10% Fe-CeO2(NH3·H2O-N-10% Fe-CeO2)的降解率可进一步提高到97%,并且具有较好的稳定性,经5次循环使用,对亚甲基蓝的光催化降解率仍高达89%。CeO2催化活性的提高主要由于掺杂Fe和N改变了CeO2的晶体结构与能带结构,促进了光生电子与空穴的产生与催化反应。  相似文献   

8.
以PW11Cu为可见光活性组分,TiO2为载体结构组分,采用溶胶-凝胶法制备了PW11Cu/TiO2复合膜可见光催化剂,并用UV-Vis DRS、IR、Raman、XRD、SEM、TEM等手段对催化剂的光吸收性质、化学组成、晶相、表面结构和形貌进行了表征,同时,以模型污染物RhB的可见光降解为探针评估了它的光催化活性,考察了膜处理温度、PW11Cu含量和溶液酸性对催化活性的影响,最后,通过催化剂循环降解RhB试验评估了PW11Cu/TiO2膜的稳定性。实验结果表明,PW11Cu/TiO2膜对可见光有明显吸收,低温(100℃)处理的膜为无定形态,高温(500℃)处理的膜为多晶态;低温处理的膜具有较高的可见光催化活性,用于RhB的可见光催化降解,在中性条件下反应80 min,RhB的降解率为100%,TOC去除达32%(4 h);提高溶液酸性有利于催化剂活性的提高,在pH=2.5的条件下,达到100%的RhB降解仅需30 min。在本实验条件下,PW11Cu的最佳剂量是3.0 g。经过10次循环降解RhB,催化剂的光催化活性仍保留约90%。  相似文献   

9.
以PW11Cu为可见光活性组分, TiO2为载体结构组分, 采用溶胶-凝胶法制备了PW11Cu/TiO2复合膜可见光催化剂, 并用UV-Vis DRS、IR、Raman、XRD、SEM、TEM等手段对催化剂的光吸收性质、化学组成、晶相、表面结构和形貌进行了表征, 同时, 以模型污染物RhB的可见光降解为探针评估了它的光催化活性, 考察了膜处理温度、PW11Cu含量和溶液酸性对催化活性的影响, 最后, 通过催化剂循环降解RhB试验评估了PW11Cu/TiO2膜的稳定性。实验结果表明, PW11Cu/TiO2膜对可见光有明显吸收, 低温(100 ℃)处理的膜为无定形态, 高温(500 ℃)处理的膜为多晶态;低温处理的膜具有较高的可见光催化活性, 用于RhB的可见光催化降解, 在中性条件下反应80 min, RhB的降解率为100%, TOC去除达32%(4 h);提高溶液酸性有利于催化剂活性的提高, 在pH=2.5的条件下, 达到100%的RhB降解仅需30 min。在本实验条件下, PW11Cu的最佳剂量是3.0 g。经过10次循环降解RhB, 催化剂的光催化活性仍保留约90%。  相似文献   

10.
以钛粉、钽粉为原料,炭黑作为反应性模板,通过熔盐法在炭黑表面原位生长了TaTiC2纳米碳化物涂层,并以所得TaTiC2/C复合物为碳化物前驱体,再经可控氧化制备出中空Ta2O5/TiO2复合光催化剂。采用X射线粉末衍射(XRD)、扫描电子显微镜(SEM)、透射电子显微镜(TEM)、紫外-可见(UV-Vis)漫反射(DRS)及N2物理吸附等手段对所制备的光催化剂进行形貌、显微结构及孔结构表征。以高压汞灯为紫外光源,以亚甲基蓝为目标降解物,通过光催化降解实验评价中空Ta2O5/TiO2复合光催化剂的光催化活性。结果表明,熔盐法生长碳化物涂层厚度均匀(20~30 nm),碳化物主要以TaTiC2晶相存在且具有纳米级的颗粒尺寸。中空Ta2O5/TiO2复合光催化剂同时具有200 nm左右的中空大孔结构及壳层10 nm左右的介孔结构。中空大孔和介孔的存在提高了所制备催化剂对亚甲基蓝的吸附能力。此外,TiO2与Ta2O5通过电子能带结构的耦合,有效提高了光生电子和空穴的分离效率,从而显著提高了光催化活性。nTinTa=2.5∶1.5时,相应的中空Ta2O5/TiO2复合光催化剂表现出最佳的光催化活性,对亚甲基蓝的紫外光催化降解率高达97%。  相似文献   

11.
磁性Fe3O4/石墨烯Photo-Fenton催化剂的制备及其催化活性   总被引:3,自引:0,他引:3  
采用共沉淀法制备磁性Fe3O4/GE(石墨烯)催化剂,实现Fe3O4纳米颗粒生长和氧化石墨烯还原同步进行,采用FTIR、XRD、TEM及低温氮吸附-脱附等对Fe3O4/GE纳米催化剂的物相、颗粒粒径及比表面积进行了表征。在H2O2存在条件下,以亚甲基蓝为目标降解物,考察了在模拟太阳光下Fe3O4/GE的催化活性,当氧化石墨烯与Fe3O4的质量比为1∶10时,经过2 h催化反应,在pH=6条件下,对亚甲基蓝的降解率达到98.7%,经过10次循环使用后对染料溶液的降解率仍保持在95.7%以上,明显优于纯的Fe3O4。  相似文献   

12.
In this study, the organosilane‐functionalized graphene oxide as a stabilizer was prepared by a facile one‐step silylation approach. [Cu(PPh3)3Cl] complex was successfully immobilized onto the graphene oxide surface through coordination interaction with organosilane ligand spacers. The supported catalyst showed enhanced catalytic performance toward Sonogashira reaction of aryl halides with phenylacetylene in water solvent compared with the homogeneous analogues, and it could be readily recycled and reused several times without discernible loss of its activity.  相似文献   

13.
唐晓宁  邵姣婧 《无机化学学报》2019,35(10):1767-1772
采用水热法合成掺氮石墨烯(N/GN),通过超声辅助等体积浸渍法制备掺氮石墨烯-铜基催化剂(Cu-N/GN)。通过XRD、SEM、TEM、N2吸附脱附、XPS和XAES对催化剂的微观结构、形貌及元素组成进行表征,并考察Cu-N/GN对乙炔氢氯化反应的催化性能。结果表明:在催化剂中铜颗粒尺寸较小、均匀分布于N/GN片层上,且铜含量较低(3.6%);Cu-N/GN对乙炔氢氯化反应的催化效果良好,乙炔转化率为68%,氯乙烯选择性为99%。  相似文献   

14.
A new graphene oxide‐based hybrid material (HL) and its Co(II), Cu(II) and Ni(II) metal complexes were prepared. Firstly, graphene oxide and (3‐aminopropyl)trimethoxysilane were reacted to give graphene oxide–3‐(aminopropyl)trimethoxysilane (GO‐APTMS) hybrid material. After that, hybrid material HL was synthesized from the reaction of GO‐APTMS and 2,6‐diformyl‐4‐methylphenol. Finally, Co(II), Cu(II) and Ni(II) complexes of HL were obtained. All the materials were characterized using various techniques. The chemosensor properties of HL were investigated against Na+, K+, Cd2+, Co2+, Cu2+, Hg2+, Ni2+, Zn2+, Al3+, Cr3+, Fe3+ and Mn3+ ions and it was found that HL has selective chemosensing to Fe3+ ion. All the graphene oxide‐supported complexes were used as heterogeneous catalysts in the oxidation of 2‐methylnaphthalene (2MN) to 2‐methyl‐1,4‐naphthoquinone (vitamin K3, menadione) in the presence of hydrogen peroxide, acetic acid and sulfuric acid. The Cu(II) complex showed good catalytic properties compared to the literature. The selectivity of 2MN to vitamin K3 was 60.23% with 99.75% conversion using the Cu(II) complex.  相似文献   

15.
用一步合成自组装法制备出了氢氧化钴与还原氧化石墨烯(Co(OH)2/rGO)的复合催化剂,并将其用于水中染料的催化降解实验. 通过X射线衍射(XRD),激光拉曼(Raman)光谱,透射电镜(TEM),X射线能量色散谱(EDS)以及X射线光电子能谱(XPS)等一系列分析手段对催化剂的结构形貌进行了详细的表征,表征结果证实氢氧化钴很好地附着在还原石墨烯的表面. 最后初步考察了催化剂催化单过硫酸钾(PMS)降解酸性橙(AO7)的性能. 结果表明,催化剂显示出了高效的催化性能,酸性橙的色度可在12 min内完全去除,总有机碳(TOC)实验也表明染料降解的同时也可获得较高的矿化度. 循环稳定性实验表明在进行到第三次实验时,催化剂仍能保持高的催化活性,将酸性橙在16 min内降解完毕.  相似文献   

16.
《中国化学》2018,36(1):37-41
A novel Pt/Cu‐zeolite A/graphene based electrocatalyst was successfully prepared by chemical reduction method for methanol electrooxidation. Graphite oxide and Cu functionalized zeolite A were simultaneously reduced by NaBH4 to prepare Cu‐zeolite A/graphene support which was used to deposit Pt nanoparticles. The nanostructure and composition of as‐prepared Pt/Cu‐zeolite A/graphene composites were characterized by X‐ray diffractometer, X‐ray fluorescence, Fourier transform infrared spectrometer and scanning electron microscopy. The electrocatalytic properties of Pt/Cu‐zeolite A/graphene modified electrode for methanol oxidation were investigated by cyclic voltammetry and chronoamperometry in 0.10 mol/L H2SO4 + 0.50 mol/L CH3OH solution. Compared with Pt/zeolite A/graphene electrode and Pt/graphene electrode, Pt/Cu‐zeolite A/graphene based electrode exhibited obviously enhanced current and higher electrocatalytic activity for methanol electrooxidation. The increased electrocatalytic activity was attributed to the presence of zeolite A and reduced graphene oxide based dual template, which significantly increased the effective electrode surface and facilitated the diffusion of analytes into the electroactive catalyst.  相似文献   

17.
Herein, a new Cu(II) Schiff base complex was immobilized onto the magnetic graphene oxide surface through a stepwise procedure. The as-synthesized nanostructure (GO/Fe3O4/CuL) was characterized by various techniques including Fourier transform infrared (FT-IR), Raman spectroscopies, scanning electron microscopy (SEM), transmission electron microscopy (TEM), thermal gravimetric analysis (TGA), energy-dispersive X-ray (EDX) and inductively coupled plasma (ICP) spectroscopies, N2 adsorption–desorption analysis, vibrating sample magnetometry (VSM), and X-ray diffraction (XRD). The catalytic activity of the synthesized nanocatalyst was examined in 4-nitrophenol (4-NP), Congo red (CR), and methylene blue (MB) reduction using NaBH4 in an aqueous solution at room temperature. The reaction progress was monitored by UV–Vis spectroscopy. Also, the synthesized nanostructure was evaluated as an efficient catalyst for the synthesis of 2-amino-4H-benzopyrans via three-component reactions of 1-naphthol, malononitrile, and various aldehydes in ethanol/water at 50°C. The use of green solvents, the short reaction time, the high product yield, and easy separation from the reaction environment are the main benefits of this catalytic system. By covalent grafting of the complex on the graphene oxide surface, its catalytic performance significantly increased compared with graphene oxide; this is probably related to the chemical change of the graphene oxide surface. The results show the high chemical stability and the improved reusability of the synthesized nanocatalyst (six times) without significant loss in the catalytic activity of GO/Fe3O4/CuL nanocomposite.  相似文献   

18.
Reduced graphene oxide (RGO)‐supported Cu–Cu2O nanocomposite material (Cu‐Cu2O@RGO) was prepared through a one‐pot reflux synthesis method. The morphology, crystal structure and composition of the prepared Cu‐Cu2O@RGO were characterized using transmission electron microscopy, X‐ray diffraction, and X‐ray photoelectron, infrared and Raman spectroscopies. Cu‐Cu2O@RGO as a heterogeneous catalyst was applied to tandem reactions of halides and sodium azide with terminal alkynes to synthesize effectively 1,4‐disubstituted 1,2,3‐triazoles. Moreover, the catalyst showed excellent recyclability performance with very little leaching of the metal. Compared with homogeneous catalysts, Cu‐Cu2O@RGO as a green and efficient catalyst was recoverable, easy to separate and highly stable in the tandem method for the synthesis of 1,2,3‐triazole compounds.  相似文献   

19.
In this paper, a novel, “green”, efficient and atom-economical methodology for the synthesis of N-(alkyl)-2-phenylimidazo[1,2-a]pyridin-3-amine derivatives based on copper catalyzed oxidative cyclization is presented. An efficient copper nanocatalyst was fabricated by immobilization of Cu on β-Cyclodextrin (βCD) functionalized magnetic graphene oxide nanosheets (denoted as Cu@βCD@MGO). This catalyst primarily oxidizes benzylic alcohols to aldehydes by aerobic O2. The obtained aldehydes, in situ, takes part in a three component reaction with pyridin-2-amine and isocyanides to produce corresponding N-(alkyl)-2-phenylimidazo[1,2-a]pyridin-3-amine derivatives. The catalyst was characterized by TEM, SEM, VSM, FT-IR, XRD, TGA and ICP. As an advantage, the catalyst showed to be highly recoverable and no appreciable leaching was observed after 10 runs.  相似文献   

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