Nanostructured ZnO and CuO, and coupled oxides, i.e., ZnCu, Zn2Cu, and ZnCu2, with ZnO:CuO molar ratios of 1:1, 2:1, and 1:2, respectively, were successfully prepared through a simple, one-step, mi-crowave-assisted urea–nitrate combustion synthesis, without the use of organic solvents or surfac-tants. The prepared samples were characterized using X-ray diffraction, X-ray photoelectron spec-troscopy, scanning electron microscopy, energy-dispersive X-ray analysis, transmission electron microscopy, Fourier-transform infrared spectroscopy, diffuse reflectance spectroscopy, and photo-luminescence spectroscopy. The optical absorption of ZnO extended into the visible region after CuO loading. The photocatalytic activities of ZnO, CuO, and the coupled oxides were evaluated based on photodegradation of 2,4-dichlorophenol under visible-light irradiation. The coupled metal oxide Zn2Cu showed the best photocatalytic activity;this was mainly attributed to the extended photore-sponsive range and the increased charge separation rate in the nanocomposite. The photocatalytic degradation process obeyed pseudo-first-order kinetics. The results suggest that the coupled metal oxide Zn2Cu has potential applications as an efficient catalytic material with high efficiency and recyclability for the photocatalytic degradation of organic pollutants in aqueous solution under visible-light irradiation.
参考文献
[1] | Wang Y X;Li X Y;Wang N;Quan X,Chen Y Y .[J].Sep Purif Technol,2008,62:727. |
[2] | Wan X;Liang X Y;Zhang C R;Li X X,Liang W W,Xu H S,Lan S,Tie S L .[J].Chem Eng J,2015,272:58. |
[3] | Liu Y S;Wei S H;Gao W .[J].J Hazard Mater,2015,287:59. |
[4] | Pawinrat P;Mekasuwandumrong O;Panpranot J .[J].Catal Commun,2009,10:1380. |
[5] | Yu Z B;Yin L C;Xie Y P;Liu G,Ma X L,Cheng H M .[J].J Colloid Interface Sci,2013,400:18. |
[6] | Pawar R C;Choi D H;Lee J S;Lee C S .[J].Mater Chem Phys,2015,151:167. |
[7] | Zhan Z Y;Zheng L X;Pan Y Z;Sun G Z,Li L .[J].J Mater Chem,2012,22:2589. |
[8] | Saleh T A;Gondal M A;Drmosh Q A .[J].Nanotechnology,2010,21:495705. |
[9] | Li B J;Cao H Q .[J].J Mater Chem,2011,21:3346. |
[10] | Huang J R;Dai Y J;Gu C P;Sun Y F,Liu J H .[J].J Alloys Compd,2013,575:115. |
[11] | Mageshwari K;Nataraj D;Pal T;Sathyamoorthy R,Park J .[J].J Alloys Compd,2015,625:362. |
[12] | Khemthong P;Photai P;Grisdanurak N .[J].Int J Hydrogen Energy,2013,38:15992. |
[13] | Witoon T;Permsirivanich T;Chareonpanich M .[J].Ceram Int,2013,39:3371. |
[14] | Liu Z L;Deng J C;Deng J J;Li F F .[J].Mater Sci Eng B,2008,150:99. |
[15] | Saravanan, R.;Karthikeyan, S.;Gupta, V.K.;Sekaran, G.;Narayanan, V.;Stephen, A. .Enhanced photocatalytic activity of ZnO/CuO nanocomposite for the degradation of textile dye on visible light illumination[J].Materials science & engineering, C. Biomimetic and supramolecular systems,2013(1):91-98. |
[16] | Gajendiran J;Rajendran V .[J].Mater Lett,2014,116:311. |
[17] | Sathishkumar P;Sweena R;Wu J J;Anandan S .[J].Chem Eng J,2011,171:136. |
[18] | Habibi M H;Karimi B .[J].J Ind Eng Chem,2014,20:925. |
[19] | Chang T Q;Li Z J;Yun G Q;Jia Y,Yang H J .[J].Nano Micro Lett,2013,5:163. |
[20] | Wang J;Fan X M;Wu D Z;Dai J,Liu H,Liu H R,Zhou Z W .[J].Appl Surf Sci,2011,258:1797. |
[21] | Singh K A;Pathak L C;Roy S K .[J].Ceram Int,2007,33:1463. |
[22] | Li J;Pan Y B;Qiu F G;Wu Y S,Guo J K .[J].Ceram Int,2008,34:141. |
[23] | Purohit R D;Sharma B P;Pillai K T;Tyagi A K .[J].Mater Res Bull,2001,36:2711. |
[24] | Jia J;Zhang S;Wang P;Wang H .[J].J Hazard Mater,2012,205-206:150. |
[25] | Pera-Titus M;Garcia-Molina V;Banos M A;Gimenez J,Esplugas S .[J].Appl Catal B,2004,47:219. |
[26] | Chaliha S;Bhattacharyya K G .[J].Chem Eng J,2008,139:575. |
[27] | Krishnakumar B;Imae T;Miras J;Esquena J .[J].Sep Purif Technol,2014,132:281. |
[28] | Cullity B D.Elements of X-ray Diffraction[M].USA:Addi-son-Wesley,1967 |
[29] | Singh P;Kaushal A;Kaur D .[J].J Alloy Compd,2009,471:11. |
[30] | Tian G H;Fu H G;Jing L Q;Tian C G .[J].J Hazard Mater,2009,161:1122. |
[31] | Zheng, LR;Zheng, YH;Chen, CQ;Zhan, YY;Lin, XY;Zheng, Q;Wei, KM;Zhu, JF .Network Structured SnO2/ZnO Heterojunction Nanocatalyst with High Photocatalytic Activity[J].Inorganic Chemistry,2009(5):1819-1825. |
[32] | Zhang YC;Tang JY;Wang GL;Zhang M;Hu XY .Facile synthesis of submicron Cu2O and CuO crystallites from a solid metallorganic molecular precursor[J].Journal of Crystal Growth,2006(2):278-282. |
[33] | Li B X;Wang Y F .[J].Superlattices Microstruct,2010,47:615. |
[34] | Chow, L.;Lupan, O.;Chai, G.;Khallaf, H.;Ono, L.K.;Roldan Cuenya, B.;Tiginyanu, I.M.;Ursaki, V.V.;Sontea, V.;Schulte, A..Synthesis and characterization of Cu-doped ZnO one-dimensional structures for miniaturized sensor applications with faster response[J].Sensors and Actuators, A. Physical,2013:399-408. |
[35] | Fu M;Li Y;Wu S;Lu P,Liu J,Dong F .[J].Appl Surf Sci,2011,258:1587. |
[36] | Hosseini-Sarvari M;Moeini F .[J].New J Chem,2014,38:624. |
[37] | Pozan G S;Isleyen M;Gokcen S .[J].App Cata B,2013,140-141:537. |
[38] | Lv K Z;Li J;Qing X X;Li W Z,Chen Q Y .[J].J Hazard Mater,2011,189:329. |
[39] | Taylor J H;Amberg C H .[J].Can J Chem,1961,39:535. |
[40] | Butler M.A .[J].J Appl Phys,1977,48:1914. |
[41] | Tauc J.Optical Properties of Solids[M].Amsterdam:North-Holland,1972 |
[42] | Anandan S;Vinu A;Venkatachalam N;Arabindoo B,Murugesan V .[J].J Mol Catal A,2006,256:312. |
[43] | Singh S A;Madras G .[J].Sep Purif Technol,2013,105:79. |
[44] | Lam S M;Sin J C;Abdullah A Z;Mohamed A R .[J].J Mol Catal A,2013,370:123. |
[45] | Ohtani B .[J].J Photochem Photobiol C,2010,11:157. |
[46] | Tang W Z;Huang C P .[J].Water Res,1995,29:745. |
[47] | Nageswara Rao A;Sivasankar B;Sadasivam V .[J].J Mol Catal A,2009,306:77. |
[48] | Bansal P;Sud D .[J].Desalination,2011,267:244. |
[49] | Ahmed S;Rasul M G;Brown R;Hashib M A .[J].J Environ Manage,2011,92:311. |
[50] | Lam S M;Sin J C;Abdullah A Z;Mohamed A R .[J].Sep purif Technol,2014,132:378. |
[51] | Wang Z L;Liu Y X;Martin D J;Wang W D,Tang J W,Huang W X .[J].Phys Chem Chem Phy,2013,15:14956. |
[52] | Liu Z Y;Bai H W;Xu S P;Sun D D .[J].Int J Hydrogen Energy,2011,36:13473. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%