ICREA Academia
Guillem Aromí Bedmar

Guillem Aromí Bedmar

ICREA Academia 2008, 2013 & 2018

Universitat de Barcelona · Experimental Sciences & Mathematics

Guillem Aromí Bedmar

Dr. Guillem Aromí graduated in Chemistry and Chemical Engineering at the University of Barcelona (UB) and EHICS (Strasbourg, France), respectively, in 1993. He earned his PhD in Chemistry at Indiana University (1999, USA) and completed posdoctoral stays at Leiden University (2002, Holland) with a Marie Curie Fellowship and at Manchester University (2003, UK). He became in 2003 a “Ramon y Cajal” Fellow at the UB where he became Associate Professor in 2007 and Full Professor in 2018. He received the three year distinction by the Generalitat de Catalunya for Incentivation of Research and the prize ICREA Academia 2008, 2013 and 2018. He received, in 2011, an ERC Starting Grant and in 2012 he chaired the Vth International Conference on Molecular Materials. In 2018 he became Director of the Institute of Nanoscience and Nanotechnology of the University of Barcelona (IN2UB).

 


Research interests

My main research lines are the following:
A) Design and preparation of molecules for Quantum Computing (QC) through the coherent manipulation of spins. This is pursued by preparing molecules that incorporate the spin carriers leading to the appropriate energy spectrum and quantum dynamic properties. The goal is to use them for the construction of hybrid quantum devices.
B) Preparation and study of switchable materials based on spin crossover (SCO). We develop new SCO materials for exploiting their potential in nanotechnology, by studying and enhancing their dynamic properties in relation to intermolecular interactions. The switching properties upon exchange of small molecules with the environment are studied.
C) Preparation of magnetic photoswitchable molecules. We design photomagnetic molecules by the synthesis of ligands with photoactive moieties and their magnetic complexes.


Keywords

Coordination Chemistry, Molecular Magnetism, Single Molecule Magnets, Quantum Computing, Functional Molecules