I got a PhD from the UPC (1997) and then completed a one-year postdoc at the University of Warwick (UK). Since 2006, I have been the Head of the MINOS Research Group at Universitat Rovira i Virgili, working on nanomaterials and microsystems for gas sensing. In 2009 I became full Professor. From 2010 to 2014 I was the Director of the Centre for Research in Materials Engineering and Micro / Nano Systems. I am President of the Spanish Network of Microsystems and Nanotechnology (IBERNAM). I have co-authored over 250 peer-reviewed journal papers, given some 40 invited lectures at international conferences and lead over 40 regional, national and international projects. Have been invited regularly to conduct research in France and Japan. Founder of the spinoffs Green Smart Data and NanoChronia. In 2012 I received the URV’s RQR award and the ICREA Academia award (in 2012 and 2018). In 2019 I became distinguished Professor at the URV.
Research interests
Growth of crystalline metal oxide nanomaterials employing bottom-up approaches. Specifically, self-catalysed growth of n-type semiconductor nanowires onto ceramic, silicon, MEMS or polymeric substrates. Nanowires are grown and loaded with p-type nanoparticles, achieving functional nanomaterials with heterojunctions at the nanoscale, with superior performance for gas sensing. CVD growth of 2D and 3D assemblies of transition metal dichalcogenides. Gaining insight in the surface chemistry, nature of defects and the specific mechanisms of interaction with target gases, unveiling gas-sensing mechanisms and structure-performance relationships. Functionalisation of carbon nanomaterials, grafting metal nanoparticles, complex molecules, perovskites, metal clusters achieving highly sensitive and selective sensors. Nanomaterial-based flexible gas sensors a with a performance that matches the one of conventional rigid devices. Development of unattended, wireless gas sensing networks.
Keywords
gas sensor microsystems; carbon nanomaterials, metal oxide nanowires; transition metal dichalcogenides; nanoporous alumina; hybrid functional nanomaterials, signal processing