| 1 |
A techno-economic assessment of the potential for combining supercritical water oxidation with 'in-situ' hydrothermal synthesis of nanocatalysts using a counter current mixing reactor
Al-Atta A, Huddle T, Rodriguez YG, Mato F, Garcia-Serna J, Cocero MJ, Gomes R, Lester E
Chemical Engineering Journal, 344, 431, 2018 |
| 2 |
Energetic approach of biomass hydrolysis in supercritical water
Cantero DA, Vaquerizo L, Mato F, Bermejo MD, Cocero MJ
Bioresource Technology, 179, 136, 2015 |
| 3 |
Supercritical water oxidation for energy production by hydrothermal flame as internal heat source. Experimental results and energetic study
Cabeza P, Queiroz JPS, Criado M, Jimenez C, Bermejo MD, Mato F, Cocero MJ
Energy, 90, 1584, 2015 |
| 4 |
Supercritical water oxidation with hydrothermal flame as internal heat source: Efficient and clean energy production from waste
Queiroz JPS, Bermejo MD, Mato F, Cocero MJ
Journal of Supercritical Fluids, 96, 103, 2015 |
| 5 |
Argon Solid Response upon Rydberg Photoexcitation of the NO Chromosphore: Case of Using ab Initio Potential Energy Surfaces and Comparison to Similar Studied Systems
Castro-Palacio JC, Ishii K, Ayala-Mato F, Rubayo-Soneira J, Yamashita K
Journal of Physical Chemistry A, 114(36), 9673, 2010 |
| 6 |
Salt Effect on the Vapor-Liquid-Equilibrium of Methyl Acetate Plus Methanol at 298.15-K
Martin MC, Cocero MJ, Mato F
Journal of Chemical and Engineering Data, 39(3), 538, 1994 |
