Juan Bisquert, is a physicist known for his contributions to materials and devices for sustainable energy production. He grew up in Dénia, and he is a professor at Jaume I University in Castellón de la Plana. His work on solar cells relates physical principles and modelling of electronic and ionic processes to the interpretation of measurement techniques for the photovoltaic operation. He is the author of more than 350 publications and three books.
Research activity
At Universitat Jaume I he is the funding director of INAM, that develops research on materials, nanostructures and devices for the production of clean energy. He has published more than 350 papers in scientific journals. He has been cited more than 20,000 times in scientific journals. In 2014, 2015 y 2016 he appeared in the list "ISI Highly Cited Researchers" He wrote a series of books including the "Nanostructured Energy Devices" collection. He edited the monography Photoelectrochemical Solar Fuel Production: From Basic Principles to Advanced Devices". He is a Senior Editor of the "Journal of Physical Chemistry Letters" and member of Advisory Board for:
"South Korean Journal of Electrochemical Science and Technology".
Since 2008 he has been the president of the Society for Nanomolecular Photovoltaics. Since 2016 he has been president of Fundació Scito. He created nanoGe conferences. His doctoral thesis was in the field of mathematical physics, on problems of algebraic quantization. His research work takes place in a multidisciplinary area that covers hybrid and organic nanotechnology solar cells as well as other functional devices of advanced materials, including perovskite solar cells and the production of semiconductor fuel from sunlight. Bisquert has developed the application of measurement techniques and physical modelling that relate the operation of the photovoltaic devices to the elementary electronic stages that take place at the nanoscale. For example, one of the main contributions of Professor Bisquert has been to define and demonstrate the relevance of the concept of Chemical Capacitance in nanostructured semiconductor devices, especially solar cells and photovoltaic devices.
