Responsable

Mª Dolores Calzada Canalejo

Miembros

• Mª Dolores Calzada Canalejo (Catedrática de Universidad)
• José Muñoz Espadero (Prof. Contratado doctor)
• Rocío Rincón Liévana (Prof. Ayudante Doctor)
• Fco Javier Morales Calero (Becario FPI)

Líneas de Investigación

• Plasmas de microondas a presión atmosférica: espectroscopia UV-Visible, modelización.
• Plasmas aplicados a producción de hidrógeno, tratamiento de superficies, síntesis de materiales y conservación de alimentos.
• Espectroscopía UV-visible, Plasmas de microondas a presión atmosférica, Producción de hidrógeno por plasma, Síntesis de nanoestructuras de carbono por plasma.

Principales publicaciones

1. A. Casanova, R. Rincón*, J. Muñoz, CO. Ania, M.D. Calzada, Optimizing high-quality graphene nanoflakes production through organic (bio)-precursor plasma decomposition, FUEL PROCESSING TECHNOLOGY 212 (2021) 106630 [2019- IF: 4.982 ENGINEERING, CHEMICAL 22/143 Q1]

2. Z. Matouk, B. Torriss, R. Rincón, A. Dorris, S. Beck, R. M.Berry, M. Chaker, Functionalization of cellulose nanocrystal films using Non-Thermal atmospheric –Pressure plasmas, Applied Surface Science 511 (2020) 145566 [2019- IF: 6.182 MATERIAL SCIENCE, COATINGS & FILMS 1/21 D1]

3. R. Rincón, M.D Calzada and C. Melero Dispositivo y método para la síntesis de grafeno en polvo a partir de una fuente de carbono. Patente registrada Referencia: ES 2 609 511 B1 (17/01/2018) Entidad Titular: Universidad de Córdoba

4. J. Martínez, E. Castaños-Martínez, C. González-Gago1, R. Rincón*, M. D. Calzada and J. Muñoz, Influence of gas flow on the performance of surface-wave discharges sustained in capillary tube, Plasma Sources Sci. Technol. 27 (2018) 077001 (5pp) [2018- IF: 4.128 PHYSICS, FLUIDS & PLASMAS 2/32 D1]

5. J. Muñoz, R. Rincón, C. Melero, M.S. Dimitrijevic, C. González, M. D. Calzada, Validation of the van der Waals broadening method for the determination of gas temperature in microwave discharges sustained in argon-neon mixture, Journal of Quantitative Spectroscopy & Radiative Transfer 206 (2018) 135-141 [2018- IF: 2.955 SPECTROSCOPY 8/41 Q1]

6. C. Melero, R. Rincon, J. Muñoz, G. Zhang, S. Sun, A Perez, O. Royuela, C. Gonzalez and M. D. Calzada Scalable graphene production from ethanol decomposition by microwave argon plasma torch, Plasma Physics and Controlled Fusion 60 (2018) 014009 (10pp) [2018- IF: 2.799 PHYSICS, FLUIDS & PLASMAS 8/32 Q1]

7. J. Muñoz, J.A. Bravo and M.D. Calzada, Aluminum metal surface cleaning and activation by atmopsheric pressure remote plasma, Applied Surface Science 407 (2017) 72-81[2017- IF: 4.439 MATERIAL SCIENCE, COATINGS & FILMS 1/19 D1]

8. R. Rincón*, A. Marinas, J. Muñoz, C. Melero and M.D. Calzada, Experimental research on ethanol-chemistry decomposition routes in a microwave plasma torch for hydrogen production, Chemical Engineering Journal 284 (2016) 1117-1126 [2016- IF: 6.216 ENGINEERING, CHEMICAL 6/135 D1]

9. J. Muñoz, R. Rincón, C. Melero, M.S. Dimitrijević, C. González and M.D. Calzada
   Validation of the van der Waals broadening method for the determination of gas temperature in microwave discharges sustained in Argon-Neon mixtures
   Journal of Quantitative Spectroscopy & Radiative Transfer 206 (2018) 135-141
10. R. Rincón, J.Muñoz, M.D. Calzada
    Departure from Local Thermodynamic Equilibrium in argon plasmas sustained in a Torche à Injection Axiale sur Guide d'Ondes
    Spectrochimica Acta Part B 103-104 (2015) 14-23
11. R. Rincón, A. Marinas , J. Muñoz , C. Melero and M.D. Calzada
    Experimental research on ethanol-chemistry decomposition routes in a microwave plasma torch for hydrogen production
    Chemical Engineering Journal 284 (2016) 1117-1126
12. C. Melero, R. Rincón, J. Muñoz, G. Zhang, S. Sun, A. Perez, O. Royuela, C. González-Gago and M. D. Calzada
    Scalable graphene production from ethanol decomposition by microwave argon plasma torch
    Plasma Physics an Controlled Fusion 60 (2018) 014009

Espectroscopía UV-visible

Phase diagram of the Ar I system. Lines depict both the values of the critical level (pG, solid line) and the values of the minor level that can still obey Saha-Boltzmann equation (p*i, dash line) for each experimental Ar flow condition studied (a) 0.75 L/min and (b) 5.00 L/min.