Juan Bisquert (pHD Universitat de València, 1991) is a Distinguished Research Professor at Instituto de Tecnología Química (Universitat Politècnica de València-Consejo Superior de Investigaciones Científicas). He is Executive Editor for Europe of the Journal of Physical Chemistry Letters. He has been distinguished in the list of Highly Cited Researchers from 2014 to 2024. The research activity of Juan Bisquert has been focused on the application of measurement techniques and physical modeling in several areas of energy devices materials, using organic and hybrid semiconductors as halide perovskite solar cells. Currently the main research topic aims to create miniature devices that operate as neurons and synapses for bio-inspired neuromorphic computation related to data sensing and image processing. The work on this topic combines harnessing hysteresis and memory properties of ionic-electronic conducting devices as memristors and transistors towards computational networks. The work is supported by European Research Council Advanced Grant.

He studied electrical engineering in Stuttgart and started working on Si solar cells in 2004 under the guidance of Uwe Rau at the Institute for Physical Electronics (ipe) in Stuttgart. After finishing his undergraduate studies in 2006, he continued working with Uwe Rau first in Stuttgart and later in Juelich on simulations and electroluminescence spectroscopy of solar cells. After finishing his PhD in 2009 and 1.5 years of postdoc work in Juelich, Thomas Kirchartz started a three year fellowship at Imperial College London working on recombination mechanisms in organic solar cells with Jenny Nelson. In 2013, he returned to Germany and accepted a position as head of a new activity on hybrid and organic solar cells in Juelich and simultaneously as Professor for Photovoltaics with Nanostructured Materials in the department of Electrical Engineering and Information Technology at the University Duisburg-Essen. Kirchartz has published >100 isi-listed papers, has co-edited one book on characterization of thin-film solar cells whose second edition was published in 2016 and currently has an h-index of 38.

Jan Anton Koster received his PhD in Physics from the University of Groningen in 2007. After his PhD, he worked as a postdoc at the universities of Cambridge and Eindhoven. Having obtained a VENI grant for organic solar cell modelling, he moved back to Groningen to continue his work on organic semiconductors. In 2013 he became a tenure-track assistant professor and was promoted to associate professor (with ius promovendi) at the University of Groningen in 2017. Currently, his main research interests include hybrid perovskite solar cells, organic solar cells and organic thermoelectrics.

He has more than 15 years research experience in the academic sector working on nanoelectronics, spintronics and optoelectronics. He possesses extensive hands-on experience on emerging low-dimensionality electronic systems including nanowire transistors, GaAs single spin quantum-bits, as well emerging phenomena in functional oxide and superconductive/ferromagnetic interfaces towards beyond CMOS technologies. He has served at various academic research positions in high reputation European institutions including the Foundation of Research and Technology in Greece, the Institut Néel CNRS in France and the London centre for Nanotechnology – University College of London in United Kingdom.  He obtained his PhD in Nanoelectronics from Grenoble Institute of Technology in France, in 2009. He is currently Researcher (Grade C) in the i-EMERGE Research Institute of the Hellenic Mediterranean University (HMU) and the Team Leader of Innovative Printed Electronics at the Nanomaterials for Emerging Devices research group. His current research interests include 2D materials engineering in various printed device concepts suc as high performing solar cells, functional sensors as well as neuromorhic computation architectures towards energy efficient, smart Internet of Intelligent Things and wearable systems.