Grupos de investigación


Materials preparation


1. Chamorro E,. Tenorio M.J., Calvo L., Torralvo M.J., Sáez-Puche R. and Cabañas A.,  “One-step Sustainable Synthesis of Superparamagnetic Iron Oxide Nanoparticles Supported on Mesoporous SiO2,  J. Supercrit Fluids 159, 104775 (2020)     CLAVE:A

Índice Impacto: 3.481 (2018) Posición: 29/138          Engineering Chemical Q1

2. Cuadra I.A., Cabañas A., Cheda J.A.R., Türk M., Pando C. Cocrystallization of the anticancer drug 5-fluorouracil and coformers urea, thiourea or pyrazinamide using supercritical CO2 as an antisolvent (SAS) and as a solvent (CSS).

REF. REVISTA: J. Supercrit Fluids 159, 104813 (2020)     CLAVE:A

Índice Impacto: 3.481 (2018) Posición: 29/138          Engineering Chemical Q1ón segunda

3. Cuadra I., Zahran F., Martín D., Cabañas A., Pando, C., Preparation of 5-fluorouracil microparticles and 5-fluorouracil/poly(L-lactide) composites by a supercritical CO2 antisolvent process”, J. Supercrit. Fluids, 143, 64-71 (2019)       CLAVE:A

Índice Impacto: 3.481 (2018) Posición: 29/138          Engineering Chemical Q1

DOI:  10.1016/j.supflu.2018.07.027

4. Cuadra I., Martinez-Casado, F.J., Cheda J.A.R., Redondo M.I., Cabañas A; Pando, C., Production and characterization of a new Copper(II) propanoate-Isonicotinamide adduct obtained via Slow Evaporation and using Supercritical CO2 as an Antisolvent, Crystal Growth & Design 19, 620–629 (2019)           

Impact Index: 4.153    (2018)  Ranking: 66/293  Material Science, Multidisciplinary Q1

DOI: 10.1021/acs.cgd.8b01034

5. Cuadra I., Zahran F., Martín D., Cabañas A., Pando, C., Preparation of 5-fluorouracil microparticles and 5-fluorouracil/poly(L-lactide) composites by a supercritical CO2 antisolvent process, J. Supercrit. Fluids, 143, 64-71 (2019)

Impact Index: 3.481 (2018)    Ranking: 29/138          Engineering Chemical Q1

DOI:  10.1016/j.supflu.2018.07.027

6. M.J. Tenorio, J. Morère, C. Carnerero, M.J. Torralvo, C.Pando, and A. Cabañas, Thiol group functionalization of mesoporous SiO2 SBA-15 using supercritical CO2, Microporous and Mesoporous Materials, 256,147-154 (2018)   

Impact Index:    3.649 Ranking:  66/284 Material Science, Multidisciplinary Q1

DOI: 10.1016/j.micromeso.2017.07.056

7. M.J., Tenorio; S. Ginés; C. Pando, J.A.R. Renuncio; A. Cabañas, Solubility of the metal precursor Ni(NO3)2·6H2O in high-pressure CO2 + ethanol mixtures, J. Chem. Eng. Data, 63, 1065–1071 (2018)  Impact Index:  2.196 (2017) Ranking: 21/59 Thermodynamics Q2, 57/137 Engineering Chemical Q2

DOI: 10.1021/acs.jced.7b00804

8. A. Castro, J. Morère, A. Cabañas, L.P. Ferreira, M. Godinho, P. Ferreira and  P. Vilarinho, Designing nanocomposites using supercritical CO2 to insert Ni nanoparticles into the pores of nanopatterned BaTiO3 thin films, J. Mater. Chem. C, 5, 1083-1089 (2017)                  

Impact Index:   5.976     Ranking: 42/284 Mat. Science, Multidisciplinary Q1 and 20/146 Physics, Applied, Q1

DOI: 10.1039/c6tc04232e

9. E. Sánchez-Miguel, M.J. Tenorio, J. Morère and A. Cabañas, Green preparation of PtRu and PtCu/SBA-15 catalysts using supercritical CO2 J CO2 Utilization 22, 382–391 (2017)                              

Impact Index: 5.503    Ranking: 11/137 Engineering Chemical Q1, D1 and 35/170 Chemistry, multidisciplinary Q1,

DOI: 10.1016/j.jcou.2017.10.018

10. J. Morere, E. Sánchez-Miguel, M.J. Tenorio, C. Pando, A. Cabañas, Supercritical Fluid Preparation of Pt, Ru and Ni/graphene nanocomposites and their application as selective catalysts in the partial hydrogenation of limonene, J. Supercrit. Fluids 120, 7-17 (2017)

Impact Index: 2.991 (2016)    Ranking: 29/135 Engineering Chemical Q1

DOI: 10.1016/j.supflu.2016.10.007

11. I. Cuadra, A. Cabañas J.A.R. Cheda, F.J Martínez-Casado and  C. Pando, Pharmaceutical co-crystals of the anti-inflammatory drug diflunisal and nicotinamide obtained using supercritical CO2 as an antisolvent, J. CO2 Utilization 13, 29-37 (2016)

Impact Index: 4.292 (2016) Ranking: 15/135 Engineering Chemical Q1 and Chemistry, multidisciplinary 33/166 Q1,

DOI: 10.1016/j.jcou.2015.11.006

12. C. Pando, A. Cabañas and I. Cuadra,Preparation of pharmaceutical co-crystals through sustainable processes using supercritical carbon dioxide: a review RSC Adv., 6, 71134-71150(2016)              Impact Index:   3.108  Ranking:  59/166  Chemistry, Multidisciplinary Q2

DOI: 10.1039/c6ra10917a

13. Y. Sánchez-Vicente, O. Alonso-Pastor, C. Pando, A. Cabañas, Phase behaviour of the two binary systems formed by CO2 and the silane precursors N-[3-(trimethoxysilyl)propyl]aniline or (3-mercaptopropyl)Trimethoxysilane, J. Chem. Thermodynamics 103, 152–156         (2016)               

Impact Index:   2.726  Ranking:  13/58  Thermodynamics Q1

DOI: 10.1016/j.jct.2016.07.044

14. Y. Sánchez-Vicente, L.A. Stevens, C. Pando, M.J. Torralvo, C.E. Snape, T.C. Drage and A. Cabañas, A new sustainable route in supercritical CO2 to functionalize silica SBA-15 with 3-aminopropyltrimethoxysilane as material for carbon capture, Chem. Eng. J., 264, 886–898 (2015)                

Impact Index: 5.31      Ranking: 8/135 Engineering Chemical Q1, D1

DOI: 10.1016/j.cej.2014.12.002

15. J. Morère, M.J. Torralvo, C. Pando, J.A.R. Renuncio and A. Cabañas, Supercritical fluid deposition of Ru nanoparticles into SiO2 SBA-15 as a sustainable method to prepare selective hydrogenation catalysts, RSC Adv., 5, 38880–38891 (2015)   

Impact Index: 3.289   Ranking: 49/163 Chemistry, Multidisciplinary Q2

DOI: 10.1039/c5ra04969e

16. J. Morère, S. Royuela, G. Asensio, P. Palomino, E. Enciso, C. Pando and A. Cabañas Deposition on Ni nanoparticles onto porous supports using supercritical CO2: effect of the precursor and reduction methodology, Phil. Trans. R. Soc. A, 373: 20150014 (2015)   

Impact Index: 2.441  Ranking: 13/63 Multidisciplinay Science Q1


17. Y. Sánchez-Vicente, C. Pando, M. Cortijo, A. Cabañas Chemical Surface Modification of Mesoporous Silica SBA-15 with a Tertiary Aminosilane using Supercritical Carbon Dioxide, Microporus and Mesoporous Materials, 193, 145–153 (2014).         

Impact Index: 3.453   Ranking: 44/260 Material Science, Multidisciplinary Q1

DOI: /10.1016/j.micromeso.2014.03.021

18. F. Zahran, A. Cabañas, J.A.R. Cheda, J.A. R. Renuncio and C. Pando, Dissolution rate enhancement of the anti-inflammatory drug diflunisal by coprecipitation with a biocompatible polymer using carbon dioxide as a supercritical fluid antisolvent, J. Supercrit. Fluids, 88, 56–65 (2014)

Impact Index: 2.371    Ranking: 37/135 Engineering Chemical Q2

DOI: /10.1016/j.supflu.2014.01.015