应用分子力学和量子力学联合的ONIOM2(B3LYP/6-31G(d,p):UFF)计算方法研究了H-ZSM-5分子筛上乙烯二聚反应的机理. 用40T簇模型模拟ZSM-5分子筛位于孔道交叉点的酸性位,对乙烯二聚过程的分步反应和协同反应两种机理进行了考察. 对于分步反应机理,乙烯分子首先通过π-氢键作用在酸性位形成稳定的吸附络合物,再进一步发生质子化并生成乙醇盐中间体,随后乙醇盐与第二个乙烯分子发生碳-碳键结合形成丁醇盐产物. 第一步质子化和第二步碳链聚合的活化能分别为152.88和119.45 kJ/mol, 表明乙烯质子化反应为速控步骤. 对于协同反应机理,乙烯质子化、碳-碳键和碳-氧键生成同时进行,生成丁醇盐,反应的活化能为162.30 kJ/mol, 略高于分步反应机理中的速控步骤. 计算结果表明这两种反应机理之间存在相互竞争.
参考文献
| [1] | Wang L;Tao L;Xie M;Xu G Huang J Xu Y .[J].Catalysis Letters,1993,21(1-2):35. |
| [2] | Xu Y;Bao X;Lin L .[J].Journal of Catalysis,2003,216(1-2):386. |
| [3] | Shu Y;Ichikawa M .[J].Catalysis Today,2001,71(1-2):55. |
| [4] | Crabtree R H .[J].Chemical Reviews,1995,95(04):987. |
| [5] | Zhang CL.;Yuan Y.;Zhang WX.;Wu TH.;Lin LW.;Li SA. .Aromatization of methane in the absence of oxygen over Mo-based catalysts supported on different types of zeolites[J].Catalysis Letters,1998(4):207-213. |
| [6] | Shu Y;Xu Y;Wong S;Wang L Guo X .[J].Journal of Catalysis,1997,170(01):11. |
| [7] | Solymosi F.;Szoke A.;Bansagi T.;Oszko A.;Cserenyi J. .AROMATIZATION OF METHANE OVER SUPPORTED AND UNSUPPORTED MO-BASED CATALYSTS[J].Journal of Catalysis,1997(2):150-161. |
| [8] | Wang D;Lunsford J H;Rosynek M P .[J].Journal of Catalysis,1997,169(01):347. |
| [9] | Ding W;Meitzner G D;Iglesia E .[J].Journal of Catalysis,2002,206(01):14. |
| [10] | Solymosi F;Erdohelyi A;Szoke A .[J].Catalysis Letters,1995,32(1-2):43. |
| [11] | Xu Y;Shu Y;Liu S;Huang J Guo X .[J].Catalysis Letters,1995,35(3-4):233. |
| [12] | Shu J;Adnot A;Grandjean B P A .[J].Industrial and Engineering Chemistry Research,1999,38(10):3860. |
| [13] | Liu S;Wang L;Ohnishi R;Ichikawa M .[J].Journal of Catalysis,1999,181(02):175. |
| [14] | Vreven T;Byun K S;Komáromi I;Dapprich S Montgomery J A Jr Morokuma K Frisch M J .[J].Journal of Chemical Theory and Computation,2006,2(03):815. |
| [15] | Maseras F.;Morokuma K. .IMOMM - A NEW INTEGRATED AB INITIO PLUS MOLECULAR MECHANICS GEOMETRY OPTIMIZATION SCHEME OF EQUILIBRIUM STRUCTURES AND TRANSITION STATES[J].Journal of Computational Chemistry: Organic, Inorganic, Physical, Biological,1995(9):1170-1179. |
| [16] | Matsubara T.;Morokuma K.;Sieber S. .A TEST OF THE NEW INTEGRATED MO+MM (IMOMM) METHOD FOR THE CONFORMATIONAL ENERGY OF ETHANE AND N-BUTANE[J].International Journal of Quantum Chemistry,1996(6):1101-1109. |
| [17] | Humbel S.;Morokuma K.;Sieber S. .THE IMOMO METHOD - INTEGRATION OF DIFFERENT LEVELS OF MOLECULAR ORBITAL APPROXIMATIONS FOR GEOMETRY OPTIMIZATION OF LARGE SYSTEMS - TEST FOR N-BUTANE CONFORMATION AND S(N)2 REACTION - RCL+CL-[J].The Journal of Chemical Physics,1996(5):1959-1967. |
| [18] | Svensson M.;Morokuma K.;Humbel S. .ENERGETICS USING THE SINGLE POINT IMOMO (INTEGRATED MOLECULAR ORBITAL PLUS MOLECULAR ORBITAL) CALCULATIONS - CHOICES OF COMPUTATIONAL LEVELS AND MODEL SYSTEM[J].The Journal of Chemical Physics,1996(9):3654-3661. |
| [19] | Vreven T.;Morokuma K. .On the application of the IMOMO (integrated molecular orbital plus molecular orbital) method[J].Journal of Computational Chemistry: Organic, Inorganic, Physical, Biological,2000(16):1419-1432. |
| [20] | Tschumper G S;Morokuma K .[J].Journal of Molecular Structure,2002,592(1-3):137. |
| [21] | Lesthaeghe D;Van Speybroeck V;Marin GB;Waroquier M .What role do oxonium ions and oxonium ylides play in the ZSM-5 catalysed methanol-to-olefin process?[J].Chemical Physics Letters,2006(4-6):309-315. |
| [22] | Solans-Monfort X;Bertran J;Branchadell V;Sodupe M .[J].Journal of Physical Chemistry B,2002,106(39):10220. |
| [23] | Pabchanda S;Pantu P;Limtrakul J .Hydrolysis of methoxide species and regeneration of active site in Fe-ZSM-5 catalyst by the ONIOM method[J].Journal of molecular catalysis, A. Chemical,2005(1/2):103-110. |
| [24] | Van Koningveld H;Van Bekkum H;Jansen J C .[J].Acta Crystallographica Section B:Structural Science,1987,43:127. |
| [25] | Derouane E G;Fripiat J G .[J].Journal of Physical Chemistry,1987,91(01):145. |
| [26] | Lonsinger S R;Chakraborty A K;Theodorou D N;Bell A T .[J].Catalysis Letters,1991,11(02):209. |
| [27] | Fripiat J G;Berger-Andre F;Andre J M;Derouane E G .[J].Zeolites,1983,3(04):306. |
| [28] | Derouane E G;Fripiat J G .[J].Zeolites,1985,5(03):165. |
| [29] | Chatterjee A;Vetrivel R .[J].Microporous Materials,1994,3(03):211. |
| [30] | Frisch M J;Trucks G W;Schlegel H B;Scuseria G E,Robb M A,Cheeseman J R,Montgomery J A Jr,Vreven T,Kudin K N,Burant J C.Gaussian 03 Revision C 02 ed[M].Wallingford:Gaussian,Inc,2004 |
| [31] | Namuangruk S;Pantu P;Limtrakul J .Investigation of ethylene dimerization over faujasite zeolite by the ONIOM method[J].Chemphyschem: A European journal of chemical physics and physical chemistry,2005(7):1333-1339. |
| [32] | Panjan W.;Limtrakul J. .The influence of the framework on adsorption properties of ethylene/H-ZSM-5 system: an ONIOM study[J].Journal of Molecular Structure,2003(1/3):35-45. |
| [33] | Kasuriya S;Namuangruk S;Treesukol P;Tirtowidjojo M Limtraku J .[J].Journal of Catalysis,2003,219(02):320. |
| [34] | Correa R J;Mota C J A .[J].Physical Chemistry Chemical Physics,2002,4(02):375. |
| [35] | Cant N W;Hall W K .[J].Journal of Catalysis,1972,25(01):161. |
| [36] | Limtrakul J;Nanok T;Jungsuttiwong S;Khongpracha P Truong T N .[J].Chemical Physics Letters,2001,349(1-2):161. |
| [37] | Boronat M;Viruela P M;Corma A .[J].Journal of the American Chemical Society,2004,126(10):3300. |
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