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Danilo Cantero

Dr. Danilo Cantero

Postdoctoral Research Associate

Contact Information

da.cantero at gmail.com

Academic Background

Ph.D. Thermodynamic Engineering of Fluids, University of Valladolid, Spain, 2014
M.Sc. Thermodynamic Engineering of Fluids, University of Valladolid, Spain, 2014
M.Eng. Chemical Engineering, National University of Còrdoba, Argentina, 2009

Research

Fundamental Studies on Biomass Hydrolysis in Supercritical Water for Production of Valuable Products: Sugars and Bio-oil

Publications

  1. Martinez, C., Cantero, D. A., Bermejo, M. D., Cocero, M. J., (2015). Hydrolysis of cellulose in supercritical water: reagent concentration as a selectivity factor. Cellulose. 22, 2231-2243.
  2. Yedro, F. Y., Cantero, D. A., Pascual, M., García-Serna, J., and Cocero, M. J., (2015). Hydrothermal fractionation of woody biomass: lignin effect on sugars recovery. Bioresource Technology. 191, 124-132.
  3. Cantero, D. A., Sanchez, À., Bermejo, M. D., Cocero, M. J., (2015). Pressure and temperature effect on cellulose hydrolysis in pressurized water. Chemical Engineering Journal. 276, 145-154.
  4. Cantero, D. A., Bermejo, M. D., Cocero, M. J., (2015). Governing Chemistry of Cellulose Hydrolysis in Supercritical Water. ChemSusChem. 8, 1026-1033.
  5. Cantero, D. A., Alvarez, A., Bermejo, M. D., Cocero, M. J., (2015). Transformation of glucose into added value compounds in a hydrothermal reaction media. The Journal of Supercritical Fluids, 98, 204-210.
  6. Cantero, D. A., Vaquerizo, L., Mato, F., Bermejo, M. D., Cocero, M. J., (2015). Energetic Approach of Biomass Hydrolysis in Supercritical Water. Bioresource Technology. 179,136-143.
  7. Cantero, D. A., Vaquerizo, L., Bermejo, M. D., Cocero, M. J. Selective Transformation of Fructose into Pyruvaldehyde in Supercritical Water. Reaction Pathway Development. Catalysis Today. DOI: 10.1016/j.cattod.2014.11.013.
  8. Cantero, D. A., Fajardo, C. M., Bermejo, M. D., Cocero, M. J., (2015). Simultaneous and Selective Recovery of Cellulose and Hemicellulose Fractions from Wheat Bran by Supercritical Water Hydrolysis. Green Chemistry. 17, 610-618.
  9. Yedro, F., García-Serna, J., Cantero, D. A., Sobrón, F., Cocero, M. J., Hydrothermal Fractionation of Grape Seeds with Subcritical Water to Produce Polyphenols, Sugars and Lignin. Catalysis Today. DOI: 10.1016/j.cattod.2014.07.053.
  10. Cantero, D. A., Bermejo, M. D., Cocero, M. J., (2014). Reaction engineering for process intensification of supercritical water biomass refining. Journal of Supercritical Fluids. 96, 21-35.
  11. Yedro, F., García-Serna, J., Cantero, D. A., (2014). Francisco Sobrón and M José Cocero. Hydrothermal extraction and hydrolysis of grape seeds to produce bio-oil. RSC Advances. 4, 30332-30339.
  12. Cantero, D. A., Bermejo, M. D., Cocero, M. J., (2013). High glucose selectivity in pressurized water hydrolysis of cellulose using ultra-fast reactors. Bioresource Technology.135, 697-703.
  13. Cantero, D. A., Bermejo, M. D., Cocero, M. J., (2013). Kinetic analysis of cellulose depolymerization reactions in near critical water. The Journal of Supercritical Fluids. 75, 48-57.
  14. Cocero, M. J., Cantero, D. A., Bermejo, M. D., García-Serna, J. Nuevas tendencias en el diseño de procesos para aprovechamiento de residuos alimentarios dirigidos a conseguir una sociedad sostenible. Retos medioambientales de la industria alimentaria. pp. 89 - 102.IMC, 2012. Book Chapter.