Aldo Di Carlo
Team Leader & Full Professor
Aldo Di Carlo is Professor of Opto and Nanoelectronics in Tor Vergata University, Director of the Institute for Structure of Matter of the National Research Council (CNR-ISM). His research focuses on the study and fabrication of electronic and optoelectronic devices, their analysis and their optimization. An important aspect of his research concerns the simulation of micro and nanoelectronic devices and the scaling-up of these technologies for industrial applications. Di Carlo founded and directs the Center for Hybrid and Organic Solar Cells. Aldo Di Carlo is the European coordinator of the H2020 project CITYSOLAR on the development of Tandem cells perovskite/organics dor building integration. He was European Coordinator of the FP7 Project ULTRADSSC on time-resolved characterization of DSSC solar cells and of the EU FP7 project OPTHER on THz Amplifiers. He is the author of more than 500 publications, 13 international patents, several review papers and books chapters.
Aldo Di Carlo
Team Leader & Full Professor
Aldo Di Carlo is Professor of Opto and Nanoelectronics in Tor Vergata University, Director of the Institute for Structure of Matter of the National Research Council (CNR-ISM). His research focuses on the study and fabrication of electronic and optoelectronic devices, their analysis and their optimization. An important aspect of his research concerns the simulation of micro and nanoelectronic devices and the scaling-up of these technologies for industrial applications. Di Carlo founded and directs the Center for Hybrid and Organic Solar Cells. Aldo Di Carlo is the European coordinator of the H2020 project CITYSOLAR on the development of Tandem cells perovskite/organics dor building integration. He was European Coordinator of the FP7 Project ULTRADSSC on time-resolved characterization of DSSC solar cells and of the EU FP7 project OPTHER on THz Amplifiers. He is the author of more than 500 publications, 13 international patents, several review papers and books chapters.
Luigi Vesce
Senior Researcher
Luigi Vesce is Senior Researcher and Lecturer of Nanoelectronics at CHOSE (Centre for Hybrid and Organic Solar Energy), Department of Electronic Engineering, University of Rome Tor Vergata, where he received a PhD in Telecommunications Engineering and Microelectronics in 2011. In the last few years, he developed a pilot-line for a public/private consortium (Dyepower) to produce 10000 m2/year of dye-sensitized solar cell (DSSC) panel for BIPVs (Building Integrated PhotoVoltaics). He collaborates with research institutes and startup/spin-off companies on third generation PV devices and process engineering, and on quality control optimization. Recently, he was the technology transfer responsible about DSSC modules with Start-up G+Lyte (Amiens, France). His research activity deals with the discovery, development, and fabrication by coating/printing techniques, and scaling-up of efficient and stable dye sensitized and perovskite solar technologies for outdoor and indoor applications. He is involved in national and international PV-related projects, author of several contributions for international journals and conferences and committee member/chairman of conferences about renewable energies.
Luigi Vesce
Senior Researcher
Luigi Vesce is Senior Researcher and Lecturer of Nanoelectronics at CHOSE (Centre for Hybrid and Organic Solar Energy), Department of Electronic Engineering, University of Rome Tor Vergata, where he received a PhD in Telecommunications Engineering and Microelectronics in 2011. In the last few years, he developed a pilot-line for a public/private consortium (Dyepower) to produce 10000 m2/year of dye-sensitized solar cell (DSSC) panel for BIPVs (Building Integrated PhotoVoltaics). He collaborates with research institutes and startup/spin-off companies on third generation PV devices and process engineering, and on quality control optimization. Recently, he was the technology transfer responsible about DSSC modules with Start-up G+Lyte (Amiens, France). His research activity deals with the discovery, development, and fabrication by coating/printing techniques, and scaling-up of efficient and stable dye sensitized and perovskite solar technologies for outdoor and indoor applications. He is involved in national and international PV-related projects, author of several contributions for international journals and conferences and committee member/chairman of conferences about renewable energies.