Publicaciones
Revistas indexadas en JCR
Journal Citation Report (JCR) es una herramienta de análisis de revistas científicas internacionales que utiliza datos estadísticos cuantificables, entre ellos el Factor de Impacto (Impact Factor, IF en inglés), lo que lleva a la clasificación de las revistas en base a su importancia relativa dentro de las categorías temáticas con las que se encuentran relacionadas. Esta clasificación se actualiza anualmente.
Revistas no indexadas en JCR
Revistas de cualquier editorial que no se encuentran clasificadas en JCR.
Libros y capítulos de libros
Difusión de los resultados de investigación en libros de editoriales nacionales de prestigio, tanto nacional como internacional.
Revistas categorizadas en JCR
Consulta a continuación todas nuestras publicaciones en Revistas categorizadas en JCR, ordenadas por el año de publicación.
2021
Assessment of two atmospheric-pressure microwave plasma sources for H2 production from ethanol decomposition.
Rincón, R., Muñoz, J., Morales-Calero, F. J., Orejas, J., & Calzada, M. D. (2021).
Applied Energy, 294, 116948.
Optimizing high-quality graphene nanoflakes production through organic (bio)-precursor plasma decomposition.
Casanova, A., Rincón, R., Muñoz, J., Ania, C. O., & Calzada, M. D. (2021).
Fuel Processing Technology, 212, 106630.
Atmospheric plasma dielectric barrier discharge: A simple route to produce superhydrophilic TiO2@ carbon nanostructure.
Matouk, Z., Torriss, B., Rincón, R., Mirzaei, A., Margot, J., & Chaker, M. (2021).
Plasma Processes and Polymers, 18(3), 2000173.
Functionalization of cellulose nanocrystal powder by non-thermal atmospheric-pressure plasmas.
Matouk, Z., Rincón, R., Torriss, B., Mirzaei, A., Margot, J., Dorris, A., … & Chaker, M. (2021).
Cellulose, 28(10), 6239-6252.
2020
Carbon Black as Conductive Additive and Structural Director of Porous Carbon Gels.
Casanova, A., Gomis-Berenguer, A., Canizares, A., Simon, P., Calzada, D., & Ania, C. O. (2020).
Materials, 13(1), 217.
Functionalization of cellulose nanocrystal films using Non-Thermal atmospheric–Pressure plasmas.
Matouk, Z., Torriss, B., Rincón, R., Dorris, A., Beck, S., Berry, R. M., & Chaker, M. (2020).
Applied Surface Science, 511, 145566.
GaAs nanoscale membranes: prospects for seamless integration of III–Vs on silicon.
Raya, A. M., Friedl, M., Martí-Sánchez, S., Dubrovskii, V. G., Francaviglia, L., Alén, B., … & i Morral, A. F. (2020).
Nanoscale, 12(2), 815-824.
2019
Numerical Study on Mie Resonances in Single GaAs Nanomembranes.
Raya, A. M., Fuster, D., & Llorens, J. M. (2019).
Nanomaterials, 9(6), 856.
Spatial Distribution of Wettability in Aluminum Surfaces Treated with an Atmospheric-Pressure Remote-Plasma.
Muñoz, J., Rincón, R., & Calzada, M. D. (2019).
Metals, 9(9), 937.
Influence of gas flow on the axial distribution of densities, temperatures and thermodynamic equilibrium degree in surface-wave plasmas sustained at atmospheric pressure.
Martínez-Aguilar, J., González-Gago, C., Castaños-Martínez, E., Muñoz, J., Calzada, M. D., & Rincon, R. (2019).
Spectrochimica Acta Part B: Atomic Spectroscopy, 158, 105636.
2018
Influence of gas flow on the performance of surface-wave discharges sustained in capillary tubes.
Martínez, J., Castaños-Martínez, E., González-Gago, C., Rincón, R., Calzada, M. D., & Muñoz, J. (2018).
Plasma Sources Science and Technology, 27(7), 077001.
Validation of the van der Waals broadening method for the determination of gas temperature in microwave discharges sustained in argon–neon mixtures.
Muñoz, J., Rincón, R., Melero, C., Dimitrijević, M. S., González, C., & Calzada, M. D. (2018).
Journal of Quantitative Spectroscopy and Radiative Transfer, 206, 135-141.
Tailored waveform of dielectric barrier discharge to control composite thin film morphology.
Brunet, P., Rincón, R., Matouk, Z., Chaker, M., & Massines, F. (2018).
Langmuir, 34(5), 1865-1872.
Exploring the Capability of HAADF-STEM Techniques to Characterize Graphene Distribution in Nanocomposites by Simulations.
Baladés, N., Sales, D. L., Herrera, M., Raya, A. M., Hernández-Garrido, J. C., López-Haro, M., & Molina, S. I. (2018).
Journal of Nanomaterials, 2018.
2017
Scalable graphene production from ethanol decomposition by microwave argon plasma torch.
Melero, C., Rincón, R., Muñoz, J., Zhang, G., Sun, S., Perez, A., … & Calzada, M. D. (2017).
Plasma Physics and Controlled Fusion, 60(1), 014009.
Aluminum metal surface cleaning and activation by atmospheric-pressure remote plasma.
Muñoz, J., Bravo, J. A., & Calzada, M. D. (2017).
Applied Surface Science, 407, 72-81.
Deposition of homogeneous carbon-TiO2 composites by atmospheric pressure DBD.
Brunet, P., Rincón, R., Margot, J., Massines, F., & Chaker, M. (2017).
Plasma Processes and Polymers, 14(7), 1600075.
Control of composite thin film made in an Ar/isopropanol/TiO2 nanoparticles dielectric barrier discharge by the excitation frequency.
Brunet, P., Rincón, R., Martinez, J. M., Matouk, Z., Fanelli, F., Chaker, M., & Massines, F. (2017).
Plasma Processes and Polymers, 14(12), 1700049.
2016
Experimental research on ethanol-chemistry decomposition routes in a microwave plasma torch for hydrogen production.
Rincón, R., Marinas, A., Muñoz, J., Melero, C., & Calzada, M. D. (2016).
Chemical Engineering Journal, 284, 1117-1126.
Synthesis of flat sticky hydrophobic carbon diamond-like films using atmospheric pressure Ar/CH4 dielectric barrier discharge.
Rincón, R., Hendaoui, A., De Matos, J., & Chaker, M. (2016).
Journal of Applied Physics, 119(22), 223303.
2015
Departure from Local Thermodynamic Equilibrium in argon plasmas sustained in a Torche à Injection Axiale sur Guide d'Ondes.
Rincón, R., Muñoz, J., & Calzada, M. D. (2015).
Spectrochimica Acta Part B: Atomic Spectroscopy, 103, 14-23.
Spectroscopic characterization of argon–nitrogen surface-wave discharges in dielectric tubes at atmospheric pressure.
Bravo, J. A., Rincón, R., Muñoz, J., Sánchez, A., & Calzada, M. D. (2015).
Plasma Chemistry and Plasma Processing, 35(6), 993-1014.
Synthesis of multi-layer graphene and multi-wall carbon nanotubes from direct decomposition of ethanol by microwave plasma without using metal catalysts.
Rincón, R., Melero, C., Jiménez, M., & Calzada, M. D. (2015).
Plasma Sources Science and Technology, 24(3), 032005.
2014
Hydrogen production from ethanol decomposition by two microwave atmospheric pressure plasma sources: surfatron and TIAGO torch.
Rincón, R., Jiménez, M., Muñoz, J., Sáez, M., & Calzada, M. D. (2014).
Plasma Chemistry and Plasma Processing, 34(1), 145-157.
Hydrogen production from ethanol decomposition by microwave plasma TIAGO torch.
Rincón, R., Marinas, A., Muñoz, J., & Calzada, M. D. (2014).
International journal of hydrogen energy, 39(22), 11441-11453.
Hydrogen and by-products formation after the decomposition of ethanol by means of a microwave plasma torch at atmospheric pressure.
Rincón, R., Muñoz, J., Marinas, A., & Calzada, M. D. (2014).
IEEE Transactions on Plasma Science, 42(10), 2770-2771.
Influence of ambient-air nitrogen on the argon plasma generated by a TIAGO torch open to atmosphere.
Rincón, R., Muñoz, J., & Calzada, M. D. (2014).
IEEE Transactions on Plasma Science, 42(10), 2352-2353.
Charge transfer interactions in self-assembled single walled carbon nanotubes/Dawson–Wells polyoxometalate hybrids.
Bosch-Navarro, C., Matt, B., Izzet, G., Romero-Nieto, C., Dirian, K., Raya, A., … & Coronado, E. (2014).
Chemical Science, 5(11), 4346-4354.
Analysis of electron beam damage of exfoliated MoS2 sheets and quantitative HAADF-STEM imaging.
Garcia, A., Raya, A. M., Mariscal, M. M., Esparza, R., Herrera, M., Molina, S. I., … & Ponce, A. (2014).
Ultramicroscopy, 146, 33-38.
2013
Hydrogen production from ethanol decomposition by a microwave plasma: Influence of the plasma gas flow.
Jimenez, M., Rincon, R., Marinas, A., & Calzada, M. D. (2013).
International journal of hydrogen energy, 38(21), 8708-8719.
Spectroscopic characterization of atmospheric pressure argon plasmas sustained with the Torche à Injection Axiale sur Guide d'Ondes.
Rincón, R., Muñoz, J., Sáez, M., & Calzada, M. D. (2013).
Spectrochimica Acta Part B: Atomic Spectroscopy, 81, 26-35.
Plasma etching dynamics of CaxBa1− xNb2O6 (CBN) material.
Vigne, S., Munõz, J., Delprat, S., Margot, J., & Chaker, M. (2013).
Microelectronic engineering, 110, 265-269.
Argon metastable and resonant densities in a low-pressure Ar–N2 inductively coupled plasma.
Muñoz, J., Margot, J., & Chaker, M. (2013).
Journal of Physics D: Applied Physics, 46(45), 455205.
2012
Absorption spectroscopy measurements of argon metastable and resonant atom density in atmospheric pressure Ar-He surface-wave plasmas using a low pressure lamp.
Munoz, J., Margot, J., & Calzada, M. D. (2012).
Journal of Applied Physics, 111(2), 023303.
Influence of nitrogen impurities on the population of plasma species in atmospheric-pressure helium microwave plasmas.
Muñoz, J., Margot, J., & Benhacene-Boudam, M. K. (2012).
Spectrochimica Acta Part B: Atomic Spectroscopy, 68, 17-23.
2011
A novel device for gas-phase sample introduction into microwave plasma: Lateral Sample Introduction.
Jiménez, M., Muñoz, J., & Calzada, M. D. (2011).
Journal of Analytical Atomic Spectrometry, 26(9), 1863-1867.
Atmospheric Pressure Ar-N2 Surface-Wave Discharge Morphology.
Bravo, J. A., Munoz, J., Saez, M., & Calzada, M. D. (2011).
IEEE Transactions on Plasma Science, 39(11), 2114-2115.
Decomposition of ethanol in a surface wave discharge at atmospheric pressure.
Jimenez, M., Rincon, R., & Calzada, M. D. (2011).
IEEE Transactions on Plasma Science, 39(11), 2108-2109.
On the validity of neutral gas temperature by N2 rovibrational spectroscopy in low-pressure inductively coupled plasmas.
Poirier, J. S., Bérubé, P. M., Muñoz, J., Margot, J., Stafford, L., & Chaker, M. (2011).
Plasma Sources Science and Technology, 20(3), 035016.
2010
Experimental study of a helium surface-wave discharge at atmospheric pressure.
Muñoz, J., Margot, J., & Calzada, M. D. (2010).
Journal of Applied Physics, 107(8), 083304.
Experimental study on equilibrium deviations in atmospheric pressure argon/helium surface wave discharges.
Muñoz, J., & Calzada, M. D. (2010).
Spectrochimica Acta Part B: Atomic Spectroscopy, 65(12), 1014-1021.
2009
Using the van der Waals broadening of spectral atomic lines to measure the gas temperature of an argon–helium microwave plasma at atmospheric pressure.
Munoz, J., Dimitrijević, M. S., Yubero, C., & Calzada, M. D. (2009).
Spectrochimica Acta Part B: Atomic Spectroscopy, 64(2), 167-172.
Measurement of Metastable Atom Populations Along an Argon Plasma Column Generated at Atmospheric Pressure.
Santiago, I., & Calzada, M. D. (2009).
IEEE transactions on plasma science, 37(6), 790-796.
2008
Using a halogen lamp to calibrate an optical system for UV-VIS radiation detection.
Yubero, C., Garcia, M. C., & Calzada, M. D. (2008).
Optica Applicata, 38(2).
Study on the reforming of alcohols in a surface wave discharge (SWD) at atmospheric pressure.
Jimenez, M., Yubero, C., & Calzada, M. D. (2008).
Journal of Physics D: Applied Physics, 41(17), 175201.
Experimental research on surface wave Ar–He discharges at atmospheric pressure.
Munoz, J., & Calzada, M. D. (2008).
Journal of Physics D: Applied Physics, 41(13), 135203.
2007
Population measurement of the 3p 5 4s configuration levels in an argon microwave plasma at atmospheric pressure.
Santiago, I., & Calzada, M. D. (2007).
Applied spectroscopy, 61(7), 725-733.
Using the van der Waals broadening of the spectral atomic lines to measure the gas temperature of an argon microwave plasma at atmospheric pressure.
Yubero, C., Dimitrijević, M. S., García, M. C., & Calzada, M. D. (2007).
Spectrochimica Acta Part B: Atomic Spectroscopy, 62(2), 169-176.
2006
On the use of the Hα spectral line to determine the electron density in a microwave (2.45 GHz) plasma torch at atmospheric pressure.
Yubero, C., Garcia, M. C., & Calzada, M. D. (2006).
Spectrochimica Acta Part B: Atomic Spectroscopy, 61(5), 540-544.
2005
Role of dissociative recombination in the excitation kinetics of an argon microwave plasma at atmospheric pressure.
Sáinz, A., Margot, J., Garcia, M. C., & Calzada, M. D. (2005).
Journal of applied physics, 97(11), 113305.
A new procedure for obtaining the Voigt function dependent upon the complex error function.
Luque, J. M., Calzada, M. D., & Saez, M. (2005).
Journal of Quantitative Spectroscopy and Radiative Transfer, 94(2), 151-161.
Spectroscopic characterization of two different microwave (2.45 GHz) induced argon plasmas at atmospheric pressure.
García, M. C., Yubero, C., Calzada, M. D., & Martínez-Jiménez, M. P. (2005).
Applied spectroscopy, 59(4), 519-528.
Using the Stark broadening of the Hα, Hβ and Hγ lines for the measurement of electron density and temperature in a plasma at atmospheric pressure.
Yubero, C., Calzada, M. D., & García, M. C. (2005).
Journal of the Physical Society of Japan, 74(8), 2249-2254.
Experimental method for determining the damping parameter of spectral lines emitted by a microwave plasma at atmospheric pressure.
Santiago, I., García, M. C., & Calzada, M. D. (2005).
Applied spectroscopy, 59(12), 1457-1464.
2004
Electron density and gas temperature from line broadening in an argon surface-wave-sustained discharge at atmospheric pressure.
Christova, M., Castanos-Martinez, E., Calzada, M. D., Kabouzi, Y., Luque, J. M., & Moisan, M. (2004).
Applied spectroscopy, 58(9), 1032-1037.
Self-absorbing method to measure the population of the metastable levels in an argon microwave plasma at atmospheric pressure.
Santiago, I., Christova, M., García, M. C., & Calzada, M. D. (2004).
The European Physical Journal-Applied Physics, 28(3), 325-330.
2003
Experimental research into the influence of ion dynamics when measuring the electron density from the Stark broadening of the Hα and Hβ lines.
Luque, J. M., Calzada, M. D., & Sáez, M. (2003).
Journal of Physics B: Atomic, Molecular and Optical Physics, 36(8), 1573.
2002
Radial contraction of microwave-sustained plasma columns at atmospheric pressure.
Kabouzi, Y., Calzada, M. D., Moisan, M., Tran, K. C., & Trassy, C. (2002).
Journal of applied physics, 91(3), 1008-1019.
Influence of the thermodynamic equilibrium state in the excitation of samples by a plasma at atmospheric pressure.
Calzada, M. D., Garcıa, M. C., Luque, J. M., & Santiago, I. (2002).
Journal of applied physics, 92(5), 2269-2275.
Simulation of the effect of random noise on Gaussian and Lorentzian widths in a Voigt profile.
Luque, J. M., Calzada, M. D., & Sáez, M. (2002).
Journal of plasma physics, 68(3), 203-209.
Revistas no categorizadas en JCR
Shape of atomic lines emitted by cryoplasma in Helium.
Bonifaci, N., Aitken, F., Van Nguyen, H., Atrazhev, V. M., Von Haeften, K., & Rincon, R. (2012, December).
In Journal of Physics: Conference Series (Vol. 397, No. 1, p. 012066). IOP Publishing.
Kinetics of Ar-He atmospheric pressure surface wave discharges.
Muñoz, J., & Calzada, M. D. (2010).
In Journal of Physics: Conference Series (Vol. 207, No. 1, p. 012029). IOP Publishing.
Gas Temperature Determination in Argon‐Helium Plasma at Atmospheric Pressure using van der Waals Broadening.
Munoz, J., Dimitrijević, M. S., Yubero, C., & Calzada, M. D. (2008, October).
In AIP Conference Proceedings (Vol. 1058, No. 1, pp. 149-151). American Institute of Physics.
Use of the van der Waals broadening of atomic argon lines to measure the gas temperature in an atmospheric pressure Ar-He surface wave discharge.
Munoz, J., Dimitrijevic, M. S., Yubero, C., & Calzada, M. D. (2008).
Publications de l’Observatoire Astronomique de Beograd, 84, 281-284.
Self‐absorption Effects In Experimental Methods Used To Determine Electron Density And Gas Temperature In An Argon Microwave Plasma (SWP) Generated At Atmospheric Pressure.
Santiago, I., Muñoz, J., & Calzada, M. D. (2008, October).
In AIP Conference Proceedings (Vol. 1058, No. 1, pp. 21-23). American Institute of Physics.
Determination of the Gas Temperature of an Argon Microwave Plasma at Atmospheric Pressure Using van der Waals Broadening.
Yubero, C., Dimitrijević, M. S., Garcia, M. C., & Calzada, M. D. (2007, September).
In AIP Conference Proceedings (Vol. 938, No. 1, pp. 287-291). American Institute of Physics.
Experimental Investigation of the Radial Contraction of Microwave Plasma Columns Sustained at Atmospheric Pressure: Preliminary Results.
Calzada, M. D., Santiago, I., Kabouzi, Y., Moisan, M., Tran, K. C., & Trassy, C. (2000).
In 24 International Conference on Phenomena in Ionized Gases Proceedings-Vol. 2.
Libros y capítulos de libros
Capítulo: Atmospheric Pressure Plasmas: Processes, Technology and Applications.
Libro: Recent trends in applications of atmospheric pressure microwave plasmas. (pp. 137-175).
Rincón, R., Muñoz, J., Melero, C., & Calzada, M. D. (2016).
NOVA publishers. New York, United States. ISBN: 978-1-63485-180-0
Capítulo: Plasma technology as a new food preservation technique.
Libro: Microbial Food Safety and Preservation Techniques (pp. 434-449).
Rincón, R., Yubero, C., Calzada, M. D., Moyano, L., & Zea, L. (2014).
CRC Press.
Capítulo: Some applications of argon in microwave plasmas sustained at atmospheric pressure.
Libro: Argon Production, characteristics and applications (pp. 97-124).
Calzada, M. D., Muñoz, J., Jiménez, M., Rincón, R., & Sáez, M.
NOVA publishers. New York, United States. ISBN: 978-1-62618-204-2
Capítulo: Plasma Technology: an alternative to conventional chemical processes for hydrogen production.
Libro: Applied Physics in the 21st Century (pp. 365-372).
Calzada, M. D. (2010).
NOVA Science publishers. New York, United States. ISBN: 978-1-61728-139-6