Effect of iron promoter on structure and performance of CuMnZnO catalyst for higher alcohols synthesis
暂无分享,去创建一个
Tiejun Wang | Mingyue Ding | Longlong Ma | Chuangzhi Wu | Jianguo Liu | Jianguo Liu | Chuang-zhi Wu | Tiejun Wang | Longlong Ma | M. Ding | Minghuang Qiu | Minghuang Qiu
[1] E. Freund,et al. C1-C6 Alcohols from synthesis gas on copper-cobalt catalysts , 1982 .
[2] M. Pijolat,et al. Synthesis of alcohols from CO and H2 on a Fe/A1203 catalyst at 8-30 bars pressure , 1985 .
[3] R. Jacobson,et al. Chemical nature of alkali-promoted copper-cobalt-chromium oxide higher alcohol catalysts , 1989 .
[4] E. Tronconi,et al. Higher Alcohol Synthesis over Alkali Metal-Promoted High-Temperature Methanol Catalysts , 1989 .
[5] N. Takezawa,et al. Characterization of copper/zirconia catalysts prepared by an impregnation method , 1990 .
[6] J. Dalmon,et al. Higher alcohols synthesis on cobalt based model catalysts , 1992 .
[7] B. Zhong,et al. Fischer-Tropsch synthesis on Fe-Mn ultrafine catalysts , 1994 .
[8] R. Herman. Advances in catalytic synthesis and utilization of higher alcohols , 2000 .
[9] J. Skrzypek,et al. Kinetics of the synthesis of higher aliphatic alcohols from syngas over a modified methanol synthesis catalyst , 2001 .
[10] Bing Zhong,et al. Synthesis of Higher Alcohols from Syngas over Ultrafine Mo—Co—K Catalysts , 2001 .
[11] Yuhan Sun,et al. Cu/Mn/ZrO2 catalyst for alcohol synthesis by Fischer-Tropsch modified elements , 2002 .
[12] Yuhan Sun,et al. Fe modified CuMnZrO2 Catalysts for Higher Alcohols Synthesis from Syngas , 2004 .
[13] Yuhan Sun,et al. Influence of promoter on catalytic properties of Cu-Mn-Fe/ZrO2 catalysts for alcohols synthesis , 2004 .
[14] V. Mahdavi,et al. Synthesis of C1–C6 alcohols over copper/cobalt catalysts , 2006 .
[15] Leo Petrus,et al. Biomass to biofuels, a chemical perspective , 2006 .
[16] Yong Yang,et al. Study of an iron-manganese Fischer–Tropsch synthesis catalyst promoted with copper , 2006 .
[17] M. Galbe,et al. Bio-ethanol--the fuel of tomorrow from the residues of today. , 2006, Trends in biotechnology.
[18] A. Corma,et al. Synthesis of transportation fuels from biomass: chemistry, catalysts, and engineering. , 2006, Chemical reviews.
[19] S. Kaliaguine,et al. Conversion of syngas to higher alcohols over nanosized LaCo0.7Cu0.3O3 perovskite precursors , 2007 .
[20] Geoffrey P. Hammond,et al. Development of biofuels for the UK automotive market , 2008 .
[21] Mingyue Ding,et al. Study of Manganese Promoter on a Precipitated Iron-Based Catalyst for Fischer-Tropsch Synthesis , 2007 .
[22] Yuhan Sun,et al. The performances of higher alcohol synthesis over nickel modified K2CO3/MoS2 catalyst , 2007 .
[23] Santosh K. Gangwal,et al. A Review of Recent Literature to Search for an Efficient Catalytic Process for the Conversion of Syngas to Ethanol , 2008 .
[24] Yuhan Sun,et al. CO hydrogenation to mixed alcohols over co-precipitated Cu–Fe catalysts , 2008 .
[25] M. Fatih Demirbas,et al. Biorefineries for biofuel upgrading: A critical review , 2009 .
[26] Yuhan Sun,et al. Study of induction period over K2CO3/MoS2 catalyst for higher alcohols synthesis , 2010 .
[27] Mayank Gupta,et al. Heterogeneous Catalytic Conversion of Dry Syngas to Ethanol and Higher Alcohols on Cu-Based Catalysts , 2011 .
[28] Xiaofeng Zhu,et al. The promotion effects of Pd on FeCuCo based catalyst for higher alcohols synthesis , 2011 .
[29] Tiejun Wang,et al. Impact of H2/CO ratios on phase and performance of Mn-modified Fe-based Fischer Tropsch synthesis catalyst , 2013 .