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Rational and efficient conversion of methane to more useful higher hydrocarbons is one of the most important topics of natural gas utilization.Although methane activation and its conversion to valuable compounds attract an increasing attention,methane conversion is often made in indirect way through the very energy-consuming step for syngas production from steam reforming of methane.Some promising results appeared to be of significance for the development of an alternative and potential route for the production of high value-added products from methane.Efficient conversion of methane to higher hydrocarbons could be realized via methyl halide as the intermediate.After the production of halomethane,they could be transformed to gasoline and light olefins over modified zeolites and SAPO molecular sieves.High conversion efficiency and selectivity indicated the feasibility of industrial application.The research gained recently growing interest from the point of view in both fundamental research and industrial application.The study on the reaction mechanism shed light on the possible route of C-C bond construction from methyl halide,which is the very important issue of the C1-reactant conversion to higher hydrocarbons.Hydrogen halide generation during methyl halide conversion did not exert apparent impact on the reaction mechanism and the structure stability of the catalysts.This review deals with the evolution of the field and comments the advantages to be explored and the drawbacks to be prevented for the development of new and sustainable methane-to-olefins (MTO) and methane-to-gasoline (MTG) routes via methyl halides.

参考文献

[1] Bart J C J;Sneeden R PA .[J].Catalysis Today,1987,2:1.
[2] Chinchen G C;Denny P J;Jennings J R;Spencer M S Waugh K C .[J].Applied Catalysis,1988,36:1.
[3] Hutchings G J;Hunter R .[J].Catalysis Today,1990,6:279.
[4] Chang C D .[J].Catalysis Review:Science and Engineering,1983,25:1.
[5] Rostrup-Nielsen J R .[J].Catalysis Today,1993,18:305.
[6] Holmen A .[J].Catalysis Today,2009,142:2.
[7] Olah G A;Gupta B;Felberg J D;Ip W M Husain A Karpeles R Lammertsma K Melhotra A K Trivedi N J .[J].Journal of the American Chemical Society,1985,107:7097.
[8] Olah G A;Doggweiler H;Felberg J D;Frohlich S Grdina M Jo Karpeles R Keumi T Inaba S Ip W M Lammertsma K Salem G Tabor D .[J].Journal of the American Chemical Society,1984,106:2143.
[9] Taylor C E;Noceti R P;Schehl R R .[J].Stud SurfSci Catal,1988,36:483.
[10] Pieters W J M;Conner W C Jr;Carlson E J .[J].Applied Catalysis,1984,11:35.
[11] Stepanov V G;Echevskii G V;Schubin A A;Paukshtis E A Ione K G .[J].Bulletin of the Academy of Sciences of the Ussr:Division of Chemical Science,1986,35:909.
[12] Zhou X P;Lorkovic I M;Stucky G D;Ford P C,Sherman J H,Grosso P .[P].US 6 462 243,2002.
[13] Zhou X P;Lorkovic I M;Sherman J H .[P].US 6 486 368,2002.
[14] Zhou X P;Lorkovic I M;Stucky G D;Ford P C,Sherman J H,Grosso P .[P].US 6 472 572,2002.
[15] Zhou X P;Yilmaz A;Yilmaz G A;Lorkovic I M,Laverman L E,Weiss M,Sherman J H,McFarland E W,Stucky G D,Ford P C.[J].Chemical Communications,2003:2294.
[16] Lorkovic I;Noy M;Weiss M;Sherman J,McFarland E,Stucky G D,Ford P C.[J].Chemical Communications,2004:566.
[17] Lorkovic I M;Yilmaz A;Yilmaz G A;Zhou X P Laverman L E Sun S Schaefe D J Weiss M Noy M L Cutler C I Sherman J H McFarland E W Stucky G D Ford P C .[J].Catalysis Today,2004,98:317.
[18] Lorkovic I M;Noy M L;Schenck W A;Belon C,.Weiss M,Sun S,Sherman J H,McFarland E W,Stucky G D,Ford P C .[J].Catalysis Today,2004,98:589.
[19] Taylor C E;Noceti R P .[P].US 5 019 652,1991.
[20] Taylor C E;Noceti R P .[P].US 5 139 991,1992.
[21] Noceti R P;Taylor C E .[P].US 4 769 504,1988.
[22] Taylor C E .[J].Studies in Surface Science and Catalysis,2000,130:3633.
[23] Lersch P;Bandermann F .[J].Applied Catalysis,1991,75:133.
[24] Sun Y;Campbell S M;Lunsford J H;Lewis G E Palke D Tau L-M .[J].Journal of Catalysis,1993,143:32.
[25] Noronha L A;Souza-Aguiar E F;Mota C J A .[J].Catalysis Today,2005,101:9.
[26] Jaumain D;Su B-L .[J].Studies in Surface Science and Catalysis,2000,130:1607.
[27] Jaumain D;Su B-L .[J].Catalysis Today,2002,73:187.
[28] Jaumain D;Su B-L .[J].Journal of Molecular Catalysis A:Chemical,2003,197:263.
[29] Murray D K;Chang J-W;Haw J F .[J].Journal of the American Chemical Society,1993,115:4732.
[30] Murray D K;Howard T;Goguen P W;Krawietz T R Haw J F .[J].Journal of the American Chemical Society,1994,116:6354.
[31] Tao L;Chen L;Yin S F;Luo S L Ren Y Q Li W-S Zhou X P Au C T .[J].Applied Catalysis A:General,2009,367:99.
[32] Wei Y;Zhang D;Xu L;Liu Z Su B-L .[J].Catalysis Today,2005,106:84.
[33] Wei Y;Zhang D;Xu L;Liu Z Su B-L .[J].Journal of Catalysis,2006,238:46.
[34] Zhang D;Wei Y;Xu L;Du A Chang F Su B-L Liu Z .[J].Catalysis Letters,2006,109:97.
[35] Wei Y;Zhang D;He Y;Xu L Yang Y Su B-L Liu Z .[J].Catalysis Letters,2007,114:30.
[36] Wei Y;He Y;Zhang D;Xu L Meng S Liu Z Su B-L .[J].Microporous and Mesoporous Materials,2006,90:188.
[37] Zhang D;Wei Y;Xu L;Chang F Liu Z Meng S Su B-L Liu Z .[J].Microporous and Mesoporous Materials,2008,116:684.
[38] Wei Y;Zhang D;Xu L;Chang F He Y Meng S Su B-L Liu Z .[J].Catalysis Today,2008,131:262.
[39] Wei Y;Zhang D;Liu Z;Su B-L .[J].Chemical Physics Letters,2007,444:197.
[40] Wei Y;Zhang D;Chang F;Su B-L,Liu Z.[J].Chemical Communications,2009:5999.
[41] Svelle S;Aravinthan S;Bjorgen M;Lillerud KP;Kolboe S;Dahl IM;Olsbye U .The methyl halide to hydrocarbon reaction over H-SAPO-34[J].Journal of Catalysis,2006(2):243-254.
[42] Nilsen M H;Svelle S;Aravinthan S;Olsbye U .[J].Applied Catalysis A:General,2009,367:23.
[43] Olsbye U;Saure O V;Muddada N B;Bordiga S Lamberti C Nilsen M H Lillerud K-P Svelle S .[J].Catalysis Today,2011,171:211.
[44] Su B-L;Barthomeuf D .[J].Zeolites,1993,13:626.
[45] Su B-L;Norberg V .[J].Zeolites,1997,19:65.
[46] St(o)cker M .[J].Microporous and Mesoporous Materials,1999,29:3.
[47] Nicholas JB.;Haw JF. .The prediction of persistent carbenium ions in zeolites[J].Journal of the American Chemical Society,1998(45):11804-11805.
[48] Haw J F;Song W G;Marcus D M;Nicholas J B .[J].Accounts of Chemical Research,2003,36:317.
[49] McCann D M;Lesthaeghe D;Kletnieks P W;Guenther D R,Hayman M J,Van Speybroeck V,Waroquier M,Haw J F .[J].Angewandte Chemie International Edition,2008,47:5179.
[50] Hutchings G H;Hunter R .[J].Catalysis Today,1990,6:279.
[51] Lesthaeghe D;Horr A;Waroquier M;Marin G B van Speybroeck V .[J].Chemistry-A European Journal,2009,15:10803.
[52] Clarke J K A;Darcy R;Hegarty B F;O'Donoghue E,Amir-Ebrahimi V,Rooney J J.[J].Journal of the Chemical Society,Chemical Communications,1986:425.
[53] Song W G;Marcus D M;Fu H;Ehresmann J O Haw J F .[J].Journal of the American Chemical Society,2002,124:3844.
[54] Fu H.;Haw JF.;Song WG. .Polycyclic aromatics formation in HSAPO-34 during methanol-to-olefin catalysis: ex situ characterization after cryogenic grinding[J].Catalysis Letters,2001(1/2):89-94.
[55] Arstad B;Kolboe S .[J].Catalysis Letters,2001,71:209.
[56] Guisnet M .[J].Journal of Molecular Catalysis A:Chemical,2002,182:367.
[57] Guisnet M;Costa L;Ribeiro F R .[J].Journal of Molecular Catalysis A:Chemical,2009,305:69.
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