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Lorenzo Maserati

Affiliated Researcher
Affiliated Researcher
Advanced Materials for Optoelectronics
Research center

Lorenzo Maserati holds a Bachelor (2007) and a Master (2009) degrees in Physics Engineering from Politecnico di Milano (Italy). He did his Master thesis on graphene for STM applications in the Physics Department of UC Berkeley (USA) under the supervision of Prof. M. Crommie. He obtained his PhD in Nanoscience (2014) from the University of Genoa (Italy) with a thesis on "Colloidal nanocrystal films for optoelectronic applications", working in the Nanochemistry Department of IIT under the supervision of Prof. L. Manna. In 2015 he moved as a Postdoc to the Helms group, in the Organic and Macromolecular Facility of the Molecular Foundry (Lawrence Berkeley National Lab, USA) where he developed hybrid materials (MOF) for CO2 capture and microporous polymers (PIM) for flow batteries. In 2017 he joined the Nanofabrication Facility at the Molecular Foundry where he worked with Dr. A. Schwartzberg on the ultrafast spectroscopy of nanomaterials and strongly confined systems. From 2018 to 2021 he was Researcher at CNST in Milan in the printed and molecular electronic group where he develops new metal-organic chalcogenides hybrid quantum wells for a variety of optoelectronic applications. Since 2022 he is Junior Assistant Professor in the Department of Physics and Astronomy at the University of Bologna where he studies excitonic properties of low-dimensional hybrid materials and he is IIT Affiliate with the CNST group of Advanced Materials for Optoelectronics.

He is recipient of the Nanoinnovation' Got Talent award (Bracco Foundation, 2016) and of the Seal of Excellence (Marie Skłodowska-Curie Actions, 2017). In 2022 he was awarded the ESA Discovery Programme Grant by the European Space Agency for developing lightweight hybrid perovskites X-ray detectors.

All Publications
Kastl C., Bonfa P., Maserati L.
Anharmonic Exciton-Phonon Coupling in Metal-Organic Chalcogenides Hybrid Quantum Wells
Advanced Optical Materials
Mupparapu R., Cunha J., Tantussi F., Jacassi A., Summerer L., Patrini M., Giugni A., Maserati L., Alabastri A., Garoli D., Proietti Zaccaria R.
High-Frequency Light Rectification by Nanoscale Plasmonic Conical Antenna in Point-Contact-Insulator-Metal Architecture
Advanced Energy Materials, vol. 12, (no. 15)
Kastl C., Schwartzberg A.M., Maserati L.
Picoseconds-Limited Exciton Recombination in Metal-Organic Chalcogenides Hybrid Quantum Wells
ACS Nano, vol. 16, (no. 3), pp. 3715-3722
Pecorario S., Scaccabarozzi A.D., Fazzi D., Gutierrez-Fernandez E., Vurro V., Maserati L., Jiang M., Losi T., Sun B., Tykwinski R.R., Casari C.S., Caironi M.
Stable and Solution-Processable Cumulenic sp-Carbon Wires: A New Paradigm for Organic Electronics
Advanced Materials, vol. 34, (no. 15)
Maserati L., Refaely-Abramson S., Kastl C., Chen C.T., Borys N.J., Eisler C.N., Collins M.S., Smidt T.E., Barnard E.S., Strasbourg M., Schriber E.A., Shevitski B., Yao K., Hohman J.N., Schuck P.J., Aloni S., Neaton J.B., Schwartzberg A.M.
Anisotropic 2D excitons unveiled in organic-inorganic quantum wells
Materials Horizons, vol. 8, (no. 1), pp. 197-208