Protti / Palmieri Sustainable Organic Synthesis

Protti, Stefano
Stefano Protti obtained the Master’s degree in 2003 (110/110 cum laude). In 2007, he completed his PhD in Pavia focusing on photochemical arylations via phenyl cations. Later he moved to LASIR Laboratory (Lille, France), where he investigated the photoreactivity and the photophysics of flavonoids. He came back to Pavia and started working in the field of (photo)green synthetic chemistry. After a postdoctoral stay at the iBitTec-S laboratory (CEA Saclay, France) carrying out studies on photocatalyzed oxidation reactions for energy storage, he moved again to Pavia. Since 2018 is Associate Professor at the University of Pavia, Italy. He is currently editor of the Specialist Periodical Reports in Photochemistry of the Royal Society of Chemistry, member of the Early Career Board of the ACS Sustainable Chemistry and Engineering and of the International Advisory Board of the European Journal of Organic Chemistry. The research activity of Stefano Protti has been mainly focused on the development of new synthetic methods for the light driven formation of C-C and C-heteroatom bonds under metal free conditions.

Palmieri, Alessandro
Alessandro Palmieri. Alessandro Palmieri obtained his Laurea degree cum laude in Chemistry in 2002 at the University of Camerino (Italy) where, five years later, he received the PhD degree in Chemical Sciences. Then, in the period 2007-2010 he held a postdoctoral fellowship and in 2008 he moved, as visiting postdoctoral fellow, to the ITC laboratory at the University of Cambridge (Prof. Steven V. Ley). After the experience as assistant professor (2010-2013), in 2014 he was appointed associate professor in Organic Chemistry at the University of Camerino. Currently, his research interests involve (i) the chemistry of aliphatic nitro compounds, (ii) the realization of new one-pot protocols for generating and derivatizing heterocyclic systems, (iii) the preparation and use of solid supported reagents, and (iv) the development of new sustainable processes and (v) flow chemical protocols.

Stefano Protti obtained the Master’s degree in 2003 (110/110 cum laude). In 2007, he completed his PhD in Pavia focusing on photochemical arylations via phenyl cations. Later he moved to LASIR Laboratory (Lille, France), where he investigated the photoreactivity and the photophysics of flavonoids. He came back to Pavia and started working in the field of (photo)green synthetic chemistry. After a postdoctoral stay at the iBitTec-S laboratory (CEA Saclay, France) carrying out studies on photocatalyzed oxidation reactions for energy storage, he moved again to Pavia. Since 2018 is Associate Professor at the University of Pavia, Italy. He is currently editor of the Specialist Periodical Reports in Photochemistry of the Royal Society of Chemistry, member of the Early Career Board of the ACS Sustainable Chemistry and Engineering and of the International Advisory Board of the European Journal of Organic Chemistry. The research activity of Stefano Protti has been mainly focused on the development of new synthetic methods for the light driven formation of C-C and C-heteroatom bonds under metal free conditions.

Alessandro Palmieri. Alessandro Palmieri obtained his Laurea degree cum laude in Chemistry in 2002 at the University of Camerino (Italy) where, five years later, he received the PhD degree in Chemical Sciences. Then, in the period 2007-2010 he held a postdoctoral fellowship and in 2008 he moved, as visiting postdoctoral fellow, to the ITC laboratory at the University of Cambridge (Prof. Steven V. Ley). After the experience as assistant professor (2010-2013), in 2014 he was appointed associate professor in Organic Chemistry at the University of Camerino. Currently, his research interests involve (i) the chemistry of aliphatic nitro compounds, (ii) the realization of new one-pot protocols for generating and derivatizing heterocyclic systems, (iii) the preparation and use of solid supported reagents, and (iv) the development of new sustainable processes and (v) flow chemical protocols.