Universidad Nacional de Educación a Distancia

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Universidad Nacional de Educación a Distancia - UNED

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SANTIAGO MARTIN FERNANDEZ

PROFESOR CONTRATADO DOCTOR

FÍSICA MATEMÁTICA Y DE FLUIDOS

FACULTAD DE CIENCIAS

smartin@ccia.uned.es

(+34) 91398-7138

Formación Académica

  • Licenciado en Ciencias Físicas. Universidad Nacional de Educación a Distancia (2002).
  • Doctor en Ciencias. Universidad Nacional de Educación a Distancia (2012). Premio extraordinario de doctorado.

Actividad Investigadora

Líneas de Investigación:

  • Pilas de combustible (PEMFCs) de baja temperatura basadas en membrana de Nafion y de alta temperatura basadas en membrana de polibenzimidazol dopado con ácido fosfórico (HT-PEMFCs).
  • Electrospray: Generación de capas delgadas (Thin film coating)

Participación en proyectos europeos:

  • Horizon 2020. Marie Sklodowska-Curie Actions. Individual Fellowship. Novel binder-ionomer-free electrodes enable ultra-low Pt loading electrodes for low cost High Temperature proton exchange membrane fuel cells based in phosphoric acid-doped polybenzimidazole membranes (2018-2020) 212194 €
  • Fuel Cells and Hydrogen Joint Undertaken. FP7 Projects. Development of Auxiliary Power Unit for Recreational Yachts (2013-2016) 1665796 €

Indicadores de calidad:

  • Acreditado I3. Programa de Incentivación de la Incorporación e Intensificación de la Actividad Investigadora (2019)
  • Índice H = 19
  • 20 artículos publicados en revistas indexadas en el Journal Citation Reports (JCR). 15 artículos pertenecientes al primer cuartil (Q1). Primer autor en 9 artículos 
  • 1 patente de invención
  • Revisor de revistas indexadas en el JCR

Investigación

N.º de tramos reconocidos de actividad investigadora

2

Publicaciones

  • PUBLICACIONES EN REVISTAS

    Polybenzimidazole‑Based High‑Temperature Polymer Electrolyte Membrane Fuel Cells: New Insights and Recent Progress. Electrochemical Energy Reviews. 3, pp. 793 - 845. 2020; IF=28.905

    Self-standing Nanofiber Electrodes with Pt-Co derived from Electrospun Zeolitic Imidazolate Framework for High Temperature PEM Fuel Cells. Advanced Functional Materials. 30, 2020; IF=16.808

    Protic ionic liquids immobilized in phosphoric acid-doped polybenzimidazole matrix enable polymer electrolyte fuel cell operation at 200ºC. Journal of Membrane Science. 608, pp. 118188. 2020: IF=7.183

    Feasibility of ultra-low Pt loading electrodes for high temperature proton exchange membrane fuel cells based in phosphoric acid-doping membrane. International Journal of Hydrogen Energy. 44, pp. 28273 - 28282. 2019; IF=4.939

    Ten-fold reduction from the state-of-the-art platinum loading of electrodes prepared by electrospraying for high temperature proton exchange membrane fuel cells. Electrochemistry Communications. 93, pp. 57 - 61. 2018; IF=4.66

    Nanostructured porous coatings via electrospray atomization and deposition of nanoparticle suspensions. Journal of Aerosol Science. 125, pp. 148 -163. 2018; IF=2.281

    Long-term operation of a proton exchange membrane fuel cell without external humidification. Applied Energy. 205, pp. 1012 - 1020. 2017; IF=7.9

    Fe3C-based oxygen reduction catalysts: synthesis, hollow spherical structures and applications in fuel cells. Journal of Materials Chemistry A. 3, pp. 1752 - 1760. 2015; IF=8.262

    Lowering the platinum loading of high temperature polymer electrolyte membrane fuel cells with acid doped polybenzimidazole membranes. Journal of Power Sources. 293, pp. 51 - 56. 2015; IF=6.333

    Sulfonated copolyimide membranes derived from a novel diamine monomer with pendant benzimidazole groups for fuel cells. Journal of Membrane Science. 481, pp. 44 - 53. 2015; IF=5.557

    Binderless electrodes for high-temperature polymer electrolyte membrane fuel cells. Journal of Power Sources. 272, pp. 559 - 566. 2014; IF=6.217

    Morphology and Nanostructure of Granular Materials Built from Nanoparticles. KONA Powder and Particle Journal. 31, pp. 214 - 233. 2014; IF=1.182

    Peak utilization of catalyst with ultra-low Pt loaded PEM fuel cell electrodes prepared by the electrospray method. Journal of Power Sources. 229, pp. 179 -184. 2013; IF=5.211

    Effect of the collector voltage on the stability of the cone-jet mode in electrohydrodynamic spraying. Journal of Aerosol Science. 46, pp. 53 - 63. 2012; IF=2.686

    Electrospray deposition of catalyst layers with ultra-low Pt loadings for PEM fuel cells cathodes. Journal of Power Sources. 195, pp. 2443 - 2449. 2010; IF=4.290

    High platinum utilization in ultra-low Pt loaded PEM fuel cell cathodes prepared by electrospraying. International Journal of Hydrogen Energy. 35, pp. 10446 - 10451. 2010; IF=4.057

     

  • PROPIEDAD INDUSTRIAL E INTELECTUAL

    Patente de invención con examen previo. Procedimiento de depósito nano-estructurado uniforme de partículas catalíticas por electrospray. Nº publicación: ES2427647 (2014)

Otros