Chemical and Environmental Engineering Group
















Dendritic nanoarchitecture imparts ZSM-5 zeolite with enhanced adsorption and catalytic performance in energy applications

Alonso-Doncel, M.; Ochoa-Hernández, C.; Gómez-Pozuelo, G.; Oliveira, A.; González-Aguilar, J.; Peral, A.; R. Sanz, Serrano, D. P.


CO2 adsorption on amine-functionalized clays

Gómez-Pozuelo, G.; Sanz-Pérez, E. S.; Arencibia, A.; Pizarro, P.; Sanz, R.; Serrano, D. P.


Evaluation of transition metal phosphides supported on ordered mesoporous materials as catalysts for phenol hydrodeoxygenation

Berenguer, A.; Sankaranarayanan, T. M.; Gómez, G.; Moreno, I.; Coronado, J. M.; Pizarro, P.; Serrano, D. P.


Hydrogen production by methane decomposition over pure silica SBA-15 materials

Gómez, G.; Botas, J. A.; Serrano, D. P.; Pizarro, P.


Hydrogen production through catalytic methane decomposition promoted by pure silica materials

Serrano, D. P.; Botas, J. A.; Pizarro, P.; Moreno, I.; Gómez, G.


Kinetic and autocatalytic effects during the hydrogen production by methane decomposition over carbonaceous catalysts 

Serrano, D. P.; Botas, J. A.; Pizarro, P.; Gómez, G.


Hydrogen production by methane decomposition: Origin of the catalytic activity of carbon materials

Serrano, D. P.; Botas, J. A.; Fierro, J. L. G.; Guil-López, R.; Pizarro, P.; Gómez, G.


Methane catalytic decomposition over ordered mesoporous carbons: A promising route for hydrogen production

Botas, J. A.; Serrano, D. P.; Guil-López, R.; Pizarro, P.; Gómez, G.


Ordered mesoporous carbons as highly active catalysts for hydrogen production by CH4 decomposition

Serrano, D. P.; Botas, J. A.; Pizarro, P.; Guil-López, R.; Gómez G.

  • Chemical Communications, 6585-6587 (2008)

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