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Speaker-Pedro Gómez-Romero

Pedro Gómez-Romero
ICN2, Spain

Prof. Pedro Gomez-Romero (B. Sc. and Ms Sc. Universidad de Valencia, Spain. Ph.D. in Chemistry, Georgetown University, USA, 1987, with Distinction). CSIC Researcher  at ICMAB, 1990-2007. Sabbatical at the National Renewable Energy Laboratory, USA (1998-99). Presently, Full Professor (2006-) and Group Leader of NEO-Energy lab at ICN2 (CSIC) (2007-), directing projects on hybrid organic-inorganic nanostructures, nanocomposite materials for energy storage and conversion (lithium batteries, supercapacitors,  graphene, flow batteries, solar-thermal energy, nanofluids). Author of more than 200 publications. Scientific editor of the books "Functional Hybrid Materials" P. Gómez-Romero, C. Sanchez (Eds.) (Wiley-VCH 2004)  and “Metal Oxides in Supercapacitors” (Elsevier, 2017, D Dubal , P. Gomez-Romero)  (in preparation) and author of  three award-winning popular science books (Metaevolución. La Tierra en el espejo (Ed. Celeste, 2001) , Un Planeta en busca de energía (Ed. Síntesis, 2007) and  “Creadores de futuro” (Ed. Bromera, 2016).  )
Member of the  Materials Research Society, the Electrochemical Society, ISE, EuroScience and the Royal Society of Chemistry,  and  Asociación Española de Comunicación Científica. 
Fellow of the Royal Society since 2014.
Co-founder of Earthdas Graphene Mobility (spin-off, 2016)
Former Coordinator of the Catalan Fuel Cell Network (Generalitat de Catalunya) (2003-2005) . Director of  the Crystallography and Solid State Chemistry Department at ICMAB (2004-2006).  Vicedirector of  MATGAS Technological Center (2010-2013).

Title:Hybrid Graphene Supercapacitors.From solid to liquid electrodes
SymposiumSupercapacitors
Starting Time
Ending Time
Abstract

In the field of energy storage and in particular for supercapacitors, graphene is by all accounts the advanced material of choice for years to come. Graphene has already been claimed as a champion material for supercapacitors providing large active area for capacitive double-layer storage. What then could be better than graphene for energy storage?
Hybrid materials offer the opportunity of building synergies thus leading to improved performance over their individual components.[1] In that way, hybrids based on graphene and a variety of molecular species[2.3] or extended phases[4] have been used to design materials with enhanced activity. This approach has been applied to Graphenes leading to materials with a perfect combination of properties for their use as active electrode materials in energy-storage devices, namely, a combination of conductivity-electroactivity as well as a combination of double-layer capacitive energy storage (graphene) and faradaic energy storage in a single material with a dual energy storage mechanism.[1]
A wise choice of electroactive species can thus improve the energy density of graphene-based supercapacitors through hybridization. 



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Abstract: Minyang Lu

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