对 Hummers 方法进行改进,制备出氧化石墨烯。采用氧化石墨烯和 Ti(SO4)2作为初始反应物,利用Ti(SO4)2水解,在氧化石墨烯层间成核生长纳米TiO2颗粒,制得TiO2/氧化石墨烯复合材料,再通过水合肼进行还原,制得 TiO2/石墨烯复合材料。通过XRD、FE-SEM、HR-TEM、TGA、UV-Vis、BET 和电化学性能测试等测试手段对复合材料进行表征。以复合材料为工作电极,铂电极为对电极,饱和甘汞电极为参比电极,在可见光照射(λ>420 nm)下,通过光电催化降解含偶氮化学健的酸性红 B,对复合材料的催化性能进行研究。结果表明,复合材料对可见光响应良好;在外加电极电压的条件下,复合材料的催化活性得到进一步增强。
Graphene oxide was prepared by the modified Hummers method.Using the graphene oxide and Ti (SO4 )2 as the initial reactants,TiO2/graphene oxide composite was prepared by nucleation growth of TiO2 nan-oparticles in the graphene oxide interlayer after Ti(SO4 )2 hydrolysis.Then,TiO2/graphene composite was pre-pared through reduction by hydrazine hydrate.The composite was characterized by XRD,FE-SEM,HR-TEM, TGA,UV-Vis,TBE and the electrochemical measurements.Under visible light irradiation(λ>420 nm),using the composite as working electrode,platinum electrode as counter electrode,and saturated calomel electrode as reference electrode,the photoelectrocatalytic activity of the composite for the decomposition of acid red B which contains azo chemical health was studied.The results showed that the composite has a good response to the visi-ble light,and the catalytic activity of the composite was increased under the condition of increased electrode voltage.
参考文献
| [1] | Fujishima A;Honda K .Electrochemical photolysis of wa-ter at a semiconductor electrode[J].NATURE,1972,5358(238):37-38. |
| [2] | Khan S U M;Al-Shahry M;Ingler W B .Efficient photo-chemical water splitting by a chemically modified n-TiO2[J].SCIENCE,2002,5590(297):2243-2245. |
| [3] | 张青红.二氧化钛基纳米材料及其在清洁能源技术中的研究进展[J].无机材料学报,2012(01):1-10. |
| [4] | Xiangdong Luo;Peisheng Liu;Nguyen Tam Nguyen Truong .Photoluminescence Blue-Shift of CdSe Nanoparticles Caused by Exchange of Surface Capping Layer[J].The journal of physical chemistry, C. Nanomaterials and interfaces,2011(43):20817-20823. |
| [5] | Ghows, N.;Entezari, M.H. .Fast and easy synthesis of core-shell nanocrystal (CdS/TiO_2) at low temperature by micro-emulsion under ultrasound[J].Ultrasonics sonochemistry,2011(2):629-634. |
| [6] | Minero C;Vione D .A quantitative evalution of the photo-catalytic performance of TiO2 slurries[J].Appl Catal B:Envir,2006,67:257-269. |
| [7] | Fabrication of patterned CdS/TiO_2 heterojunction by wettability template-assisted electrodeposition[J].Materials Letters,2010(11):p.1309. |
| [8] | Thi Thu Le;M. Shaheer Akhtara;Dong Min Park.Water splitting on Rhodamine-B dye sensitized Co-doped TiO2 catalyst under visible light[J].Applied Catalysis, B. Environmental: An International Journal Devoted to Catalytic Science and Its Applications,2012:397-401. |
| [9] | 邓芳,李越湘,罗旭彪,涂新满.Fe3+/Al3+-TiO2复合光催化剂的制备及其光催化性能研究[J].功能材料,2010(11):1896-1899. |
| [10] | Ahed Zyoud;Nidal Zaatar;Iyad Saadeddin .Alternative natural dyes in water purification: Anthocyanin as TiO_2-sensitizer in methyl orange photo-degradation[J].Solid state sciences,2011(6):1268-1275. |
| [11] | Gao B;Chen G Z;Li P G .Carbon nanotubes/titanum dioxide(CNTs/TiO2)nanocomposites prepared by con-ventional and novel surfactant wrapping sol-gel methods exhibiting enhanced photocatalytic activity[J].Appl Ca-ta B,2009,89:503-509. |
| [12] | Won-Chun Oh;Ah-Reum Jung;Weon-Bae Ko .Characterization and relative photonic efficiencies of a new nanocarbon/TiO_2 composite photocatalyst designed for organic dye decomposition and bactericidal activity[J].Materials science & engineering. C, Biomimetic materials, sensors and systems,2009(4):1338-1347. |
| [13] | Jie Lin;Ruilong Zong;Mi Zhou .Photoelectric catalytic degradation of methylene blue by C_(60)-modified TiO2 nanotube array[J].Applied Catalysis, B. Environmental: An International Journal Devoted to Catalytic Science and Its Applications,2009(3/4):425-431. |
| [14] | Hu Jie;Ma Jiahua;Wang Lina et al.Preparation of LaMnO3/graphene thin film by electronphoretic deposi-tion and its photocatalytic properties[J].Journal of The Chinese Ceramic Society,2014,42(03):390-396. |
| [15] | Novoselov K;Geim A;Morozov S et al.Electric field effect in atomically thin carbon films[J].SCIENCE,2004,5696(306):666-669. |
| [16] | Geim A K .Graphene:status and prospects[J].SCIENCE,2009,5934(324):1530-1534. |
| [17] | Weitz, R.T.;Yacoby, A. .Nanomaterials: Graphene rests easy[J].Nature nanotechnology,2010(10):699-700. |
| [18] | Lee C;Wei X;Kysar J W et al.Measurement of the e-lastic properties and intrinsic strength of monolayer grapheme[J].SCIENCE,2008,5887(321):385-388. |
| [19] | Nair R;Blake P;Grigorenko A et al.Fine structure constant defines visual transparency of grapheme[J].SCIENCE,2008,5881(320):1308. |
| [20] | Novoselov KS;Jiang Z;Zhang Y;Morozov SV;Stormer HL;Zeitler U;Maan JC;Boebinger GS;Kim P;Geim AK .Room-temperature quantum Hall effect in graphene.[J].Science,2007(5817):1379-0. |
| [21] | Jincheng Liu;Hongwei Bai;Yinjie Wang;Zhaoyang Liu;Xiwang Zhang;Darren Delai Sun .Self-Assembling TiO_2 Nanorods on Large Graphene Oxide Sheets at a Two-Phase Interface and Their Anti-Recombination in Photocatalytic Applications[J].Advanced functional materials,2010(23):4175-4181. |
| [22] | Du, Jiang;Lai, Xiaoyong;Yang, Nailiang;Zhai, Jin;Kisailus, David;Su, Fabing;Wang, Dan;Jiang, Lei .Hierarchically Ordered Macro?Mesoporous TiO2?Graphene Composite Films: Improved Mass Transfer, Reduced Charge Recombination, and Their Enhanced Photocatalytic Activities[J].ACS nano,2011(1):590-596. |
| [23] | Tang, Y.-B.;Lee, C.-S.;Xu, J.;Liu, Z.-T.;Chen, Z.-H.;He, Z.;Cao, Y.-L.;Yuan, G.;Song, H.;Chen, L.;Luo, L.;Cheng, H.-M.;Zhang, W.-J.;Bello, I.;Lee, S.-T. .Incorporation of graphenes in nanostructured TiO_2 films via molecular grafting for dye-sensitized solar cell application[J].ACS nano,2010(6):3482-3488. |
| [24] | Zhang, Y.;Tang, Z.-R.;Fu, X.;Xu, Y.-J. .TiO2-graphene nanocomposites for gas-phase photocatalytic degradation of volatile aromatic pollutant: Is TiO2-graphene truly different from other TiO2-carbon composite materials?[J].ACS nano,2010(12):7303-7314. |
| [25] | Yang Fan;Ke-Jing Huang;De-Jun Niu;Chun-Peng Yang;Qiang-Shan Jing .TiO_2-graphene nanocomposite for electrochemical sensing of adenine and guanine[J].Electrochimica Acta,2011(12):4685-4690. |
| [26] | 涂盛辉,梁海营,胡亚平,朱细平,彭海龙,杜军,万金保.Pt/石墨烯-TiO2纳米管的合成及光催化制氢活性[J].功能材料,2013(23):3465-3469. |
| [27] | Dongting Wang;Xin Li;Jianfeng Chen.Enhanced photoelectrocatalytic activity of reduced graphene oxide/TiO2 composite films for dye degradation[J].Chemical engineering journal,2012:547-554. |
| [28] | Chunyang Zhai;Mingshan Zhu;Fangfang Ren;Zhangquan Yao;Yukou Du;PingYang .Enhanced photoelectrocatalytic performance of titanium dioxide/carbon cloth based photoelectrodes by graphene modification under visible-light irradiation[J].Journal of hazardous materials,2013(Dec.15 Pt.2):291-298. |
| [29] | Lin Jing;Zhi-Yu Yang;Yu-Fei Zhao .Ternary polyaniline-graphene-TiO2 hybrid with enhanced activity for visible-light photo-electrocatalytic water oxidation[J].Journal of Materials Chemistry, A. Materials for energy and sustainability,2014(4):1068-1075. |
| [30] | Hummers W S;Offeman R E .Preparation of graphitic oxide[J].Am Chem Soc,1958,80(06):1339. |
| [31] | Soldano C;Mahmood A;Dujardin E .Production,prop-erties and potential of grapheme[J].CARBON,2010,48:2127-2135. |
| [32] | Ma W S;Zhou J W .Preparation of a dispersible graph-eme[J].Chemical Journal of Chinese Universities,2010,31(10):1982-1986. |
| [33] | Zhang, H.;Lv, X.;Li, Y.;Wang, Y.;Li, J. .P25-graphene composite as a high performance photocatalyst[J].ACS nano,2010(1):380-386. |
| [34] | Qian Liu;Zunfeng Liu;Xiaoyan Zhang;Liying Yang;Nan Zhang;Cuiling Pan;Shougen Yin;Yongsheng Chen;Jun Wei .Polymer Photovoltaic Cells Based On Solution-processable Graphene And P3ht[J].Advanced Functional Materials,2009(6):894-904. |
| [35] | Wang X;Zhi LJ;Mullen K .Transparent, conductive graphene electrodes for dye-sensitized solar cells[J].Nano letters,2008(1):323-327. |
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