C. López-Santos, F. Yubero, J. Cotrino, A.R. González-Elipe Diamond and Related Materials, 20 (2011) 49-56 doi: 10.1016/j.diamond.2010.11.024
Enhanced Photoactivity in Bilayer Films with Buried Rutile–Anatase Heterojunctions
P. Romero-Gómez, A. Borras, A. Barranco, J.P. Espinos, A.R. González-Elipe ChemPhysChem, 12 (2011) 191-197 doi: 10.1002/cphc.201000734
Estudio sobre el uso de combinaciones de reactores de descarga de barrera dieléctrica para la producción de hidrógeno a partir del reformado de hidrocarburos
Estudio sobre el uso de combinaciones de reactores de descarga de barrera dieléctrica para la producción de hidrógeno a partir del reformado de hidrocarburos Financial source: HYNERGREEN PI: José Cotrino (2011/2013)
Desarrollo de Láminas Luminiscentes por Tecnología de Plasma para su Integración en Sensores Fotónicos
Process-control in plasmas for the synthesis of nanostructured thin films (PLASMATER)
Financial source: Junta de Andalucía Code: P09-FQM-6900 (Proyecto de Excelencia) Process-control in plasmas for the synthesis of nanostructured thin films (PLASMATER) Research head: Alberto Palmero Acebedo Period: 15-03-2011 / 14-03-2014 Research group: José Cotrino Bautista, Ana Borrás Martos, Francisco Yubero
Sun and vision for the present thermal energy. SOLVENTA
Sun and vision for the present thermal energy (SOLVENTA) Financial source: Ministerio de Ciencia e Innovación. Proyecto INNPACTO – IPT-2011-1425-920000 PI: Agustín R. González-Elipe (May-2011/Dec-2014) SOLVENTA aims at the development of a series of equipment and devices to monitor the
Plasma CVD synthesis of novel organic nanostructured materials integrated in planar devices for photonic sensing and security applications NANOPLASMA
Plasma CVD synthesis of novel organic nanostructured materials integrated in planar devices for photonic sensing and security applications (NANOPLASMA) PI: Angel Barranco (Jan-2011/Dec-2013) Read more … NANOPLASMA proposes the development of novel techniques based on plasma for the synthesis and
Functional porous thin films and 1D supported oxide nanostructures for the development of thin film microfluidics, photonic, valves, and microplasmas (POROUSFILMS)
Functional porous thin films and 1D supported oxide nanostructures for the development of thin film microfluidics, photonic, valves, and microplasmas (POROUSFILMS) PI: Francisco Yubero (Jan-2011/Dec-2013) Read more … Functional TiO2, ZnO, SiO2 and doped SnO2 in the form of porous
Environmentally friendly processing of ceramics and glass (CERAMGLASS)
Environmentally friendly processing of ceramics and glass (CERAMGLASS) LIFE11 ENV/ES/560 PI: Xerman de la Fuente (ICMA) (Jan-2011/Dec-2014) Read more … The general objective of the ‘CERAMGLASS’ project is to reduce the environment impact of thermal treatment of ceramics by the successful