Desarrollo de nuevos catalizadores para su uso en la producción de hidrógeno a partir de biomasa

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M.G. Granados-Fitch
M. Avalos-Borja
J. M. Quintana-Melgoza
E.A. Juarez-Arellano

Resumen

Edición especial de la sección en colaboració con la Asociación Mexicana de Microscopía A.C., (AMM).

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Granados-Fitch, M., Avalos-Borja, M., Quintana-Melgoza, J. M., & Juarez-Arellano, E. . (2022). Desarrollo de nuevos catalizadores para su uso en la producción de hidrógeno a partir de biomasa. +Ciencia, (30), 52–60. Recuperado a partir de https://publicaciones.anahuac.mx/index.php/masciencia/article/view/1493
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Citas

Armor, J. N. (1999). The multiple roles for catalysis in the

production of H2. Applied Catalysis A: General, 176, 159-176.

Aronsson, B., Stenberg, E., Aselius, J. (1960). Borides of rhenium and the platinum metals, the crystal structure of Re7B3, ReB3, Rh7B3, RhB1.1, IrB1.1 and PtB. Acta Chemica Scandinavica, 14, 733-741.

Arregi, A., Amutio, M., Lopez, G., Bilbao, J., Olazar, M. (2018). Evaluation of thermochemical routes for hydrogen production from biomass: a review. Energy Conversion and Management, 165, 696-719.

Boletín Energías Limpias, Secretaría de Energía, Subsecretaria de Planeación y Transición Energética, 4(42).

Briscoe, H.V.A., Robinson, P.L., Stoddart, E.M. (1931). The sulphides and selenides of rhenium. Journal of the Chemical Society, 1439-1443.

Chiang, L.Y., Swirczewski, J.W., Chianelli, R.R., Stiefel, E.I. (1988). Soluble catalyst precursors for dehydrogenative polymerization reaction. Catalysis Letters, 1, 177-182.

Dyachkova, T.V., Tyutyunnik, A.P., Zainulin, Y.G., Gromilov, S.A. (2014). Rhenium carbides prepared by thermobaric treatment of nanosized precursors. Nanosystems: physics, chemistry, mathematics, 5, 574-578.

FAOSTAT, Producción de cocos, Organización de las Naciones Unidas para la Agricultura y la Alimentación. (2017).

Granados-Fitch, M.G., Quintana-Melgoza, J.M., JuarezArellano, E.A., Avalos-Borja, M. (2019). Mechanism to H2 production on rhenium carbide from pyrolysis of coconut Shell. International Journal of Hydrogen Energy, 44, 2784-2796.

Granados-Fitch, M.G., Juarez-Arellano, E.A., Quintana-Melgoza, J.M., Avalos-Borja, M. (2016). Mechanosynthesis of rhenium carbide at ambient pressure and temperature. International Journal of Refractory

Metals and Hard Materials, 55, 11-15.Granados-Fitch, M.G., Quintana-Melgoza, J.M., JuarezArellano, E.A., Avalos-Borja, M. (2018). Chemical stability of superhard rhenium diboride at oxygen and moisture ambient environmental conditions prepared by mechanical milling. Journal of American Ceramic Society, 101, 3148-3155.

Guo, S. (2014). Formation of rhenium diboride via mechanochemical-annealing processing of Re and B. Journal of European Ceramic Society, 34, 4443-4449.

Gupta, R. (2009). Hydrogen Fuel, Production, Transport, and Storage. CRC Presss.

Heinicke, G. (1984). Tribochemistry. Akademie-Verlga.

Huber, G.W., Iborra, S., Corma, A. (2006). Synthesis of transportation fuels from biomass: chemistry, catalysts, and engineering. Chemical Reviews, 106, 4044:4098.

Ivanov, B.L., Wellons, M.S., Lukehart, C.M. (2009). Confined-plume chemical deposition: rapid synthesis of crystalline coatings of knows hard or superhard materials on inorganic or organic supports by renonant IR decomposition of molecular precursors. Journal of

American Chemical Society, 131, 11744-11750.

Jacobsen, C.J.H., Tornqvist, E., Topsoe, H. (1999). HDS, HDN and HYD activities and temperature-programmed reduction of unsupported transition metal sufides. Catalysis Letters, 63, 179-183.

Juarez, E.A., Winkler, B., Friedrich, A., Wilson, D., Muller, M., et al. (2008). Reaction of rhenium and carbon at high pressures and temperatures. Zeitschrift fur Kristallographie, 223, 492-501.

Juarez-Arellano E.A., Winkler, B., Friedrich, A., Bayarjargal, L., Milman, V., et al. (2009). Stability field of the high-(P,T) Re2C phase and properties of an analogous osmium carbide phase. Journal of Alloys and Compounds, 248, 577-581.

Juarez-Arellano E.A., Winkler, B., Friedrich, A., Bayarjargal, L., Morgenroth, W., et al. (2013). In situ study of the formation of rhenium borides form the elements at high-(p, T) conditions: extreme incompressibility of Re7B3 and formation of new phases. Solid State Sciences, 25, 85-92.

La Placa, S., Post, B. (1962). The crystal structure of rhenium diboride. Acta crystallographica, 15, 97-99.

Latini, A., Rau, J.V., Ferro, D., Teghil, R., Albertini, V.R. et al. (2008). Superhard rhenium diboride films: preparation and characterization. Chemistry of Materials, 20, 4507-4511.

Leicht, G., Berger, H., Levy, F. (1987). The growth of nand p-type ReS2 and ReSe2 single crystals and their electrical properties. Solid State Communications, 61, 531-537.