采用蒸发诱导自组装法制备了介孔氧化钨(m-WO3),担载Pt后应用于催化甘油氢解制1,3-丙二醇.结果表明,与商业氧化钨(c-WO3)相比,m-WO3具有高比表面积和易还原的优点,从而使得Pt纳米粒子高度分散于其上.在180℃和5.5 MPa H2下反应12h,Pt/m-WO3催化剂上甘油转化率和1,3-丙二醇的选择性分别为18.0%和39.2%,明显高于Pt/c-WO3催化剂.
参考文献
| [1] | Pagliaro M;Ciriminna R;Kimura H;Rossi M Della Pina C .[J].Angewandte Chemie International Edition in English,2007,46:4434. |
| [2] | Hu W B;Lowry B;Varma A .[J].Applied Catalysis B:Environmental,2011,106:123. |
| [3] | Bianchi C L;Canton P;Dimitratos N;Porta F Prati L .[J].Catalysis Today,2005,102-103:203. |
| [4] | Kraleva, E.;Palcheva, R.;Dimitrov, L.;Armbruster, U.;Brückner, A.;Spojakina, A. .Solid acid catalysts for dehydration of glycerol to acrolein in gas phase[J].Journal of Materials Science,2011(22):7160-7168. |
| [5] | 冯建,熊伟,贾云,王金波,刘德蓉,陈华,李贤均.Ru/TiO2催化剂上甘油氢解制1,2-丙二醇[J].催化学报,2011(09):1545-1549. |
| [6] | Li B D;Wang J;Yuan Y Z;Ariga H Takakusagi S Asakura K .[J].ACS Catal,2011,1:1521. |
| [7] | Nakagawa, Y.;Shinmi, Y.;Koso, S.;Tomishige, K. .Direct hydrogenolysis of glycerol into 1,3-propanediol over rhenium-modified iridium catalyst[J].Journal of Catalysis,2010(2):191-194. |
| [8] | Luo N-J;Wang J-A;Xiao T-C;Cao F-H Fang D-Y .[J].Catalysis Today,2011,166:123. |
| [9] | Chaminand J;Djakovitch L;Gallezot P;Marion P;Pinel C;Rosier C .Glycerol hydrogenolysis on heterogeneous catalysts[J].Green chemistry,2004(8):359-361. |
| [10] | Kurosaka T;Maruyama H;Naribayashi I;Sasaki Y .[J].Catalysis Communications,2008,9:1360. |
| [11] | 龚磊峰,吕元,丁云杰,林荣和,李经伟,董文达,王涛,陈维苗.Pt/WO_3/ZrO_2催化甘油选择性脱羟基制1,3-丙二醇反应的溶剂效应[J].催化学报,2009(12):1189-1191. |
| [12] | Daniel O M;DeLaRiva A;Kunkes E L;Datye A K Dumesic J A Davis R J .[J].ChemCatChem,2010,2:1107. |
| [13] | Gong L;Lu Y;Ding Y;Lin R Li J Dong W Wang T Chen W .[J].Applied Catalysis A:General,2010,390:119. |
| [14] | Qin L-Z;Song M-J;Chen C-L .[J].Green Chemistry,2010,12:1466. |
| [15] | Amada Y;Shinmi Y;Koso S;Kubota T Nakagawa Y Tomishige K .[J].Applied Catalysis B:Environmental,2011,105:117. |
| [16] | Oh J;Dash S;Lee H .[J].Green Chemistry,2011,13:2004. |
| [17] | Zhu S;Zhu Y;Hao S;Chen L Zhang B Li Y .[J].Catalysis Letters,2011,142:267. |
| [18] | Che T M .[P].US4642394-A,1987. |
| [19] | Drent E;Jager W W .[P].US6080898-A,2000. |
| [20] | Schlaf M;Ghosh P;Fagan P J;Hauptman E,Bullock R M .[J].Angewandte Chemie International Edition,2001,40:3887. |
| [21] | Yang P;Zhao D;Margolese D I;Chmelka B F Stucky G D .[J].Chemistry of Materials,1999,11:2813. |
| [22] | Hadjiivanov K.;Lukinskas P.;Knozinger H. .Detection of reduced Wn+ sites on WO3-ZrO2 and Pt/WO3-ZrO2 catalysts by infrared spectroscopy of adsorbed NO[J].Catalysis Letters,2002(1/2):73-77. |
| [23] | Bigey C. .Catalysis on Pd/WO_3 and Pd/WO_2: Effect of the Modifications of the Surface States Due to Redox Treac\tments on the Skeletal Rearrangement of Hydrocarbons[J].Journal of Catalysis,1999(2):406-420. |
| [24] | Xi, G.;Ye, J.;Ma, Q.;Su, N.;Bai, H.;Wang, C. .In situ growth of metal particles on 3D urchin-like WO _3 nanostructures[J].Journal of the American Chemical Society,2012(15):6508-6511. |
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