Mechanistic Understanding of The Photoexcited Nitroarene-Mediated Olefin Ozonolysis

MSCA (Marie Skłodowska-Curie)HORIZON-TMA-MSCA-PF-EFID: 101150311
EC Contribution
€1,738
Consortium Size
1 orgs
Start Year
2024
Summary

Olefins are feedstocks readily available from petroleum and vegetable biomass with an integral role in the preparation of high-value materials. In particular, olefin ozonolysis used to introduce oxygen atoms and convert these molecules into a broad spectrum of synthetic intermediates like aldehydes, ketones and carboxylic acids.So far ozonolysis reactions mostly adopted by the bulk chemical industry which uses it on simple materials. The fine chemical sectors (pharmaceutical and agrochemical industries) do not use this reactivity mostly due to safety concerns in handling ozone.The Leonori group has recently demonstrated that photoexcited nitroarenes can be used as ozone surrogates for the oxidative cleavage of olefins. This project seeks to understand the key mechanistic factors that govern the reactivity so that generalization and application by the broad chemical community might be possible.The completion of such a timely and relevant mechanistic project at RWTH Aachen University will be facilitated by generating, transferring, sharing and disseminating knowledge, and will enhance The Researchers future career following the training plan envisioned.

Consortium (1)

Project Results (8)

Source: CORDIS, the EU research results database.

Publications (7)
Importance of Polar Effects in Halogen-Atom Transfer from Alkyl Iodides to α-Aminoalkyl Radicals. A Kinetic and Computational Evaluation of the Role of Structural and Medium Effects
JACS Au· 2026DOI
Jacopo Mancini, Chiara Stavagna, Francesco Pileri, Giovanni Lonardi, Enrique M. Arpa, Marco Galeotti, Sergio Sisti, Fabio Juliá, Michela Salamone, Daniele Leonori, Massimo Bietti
Excited-state antiaromaticity relief in photoactive amine–boranes promotes transfer hydrogenation to electron-poor olefins
Physical Chemistry Chemical Physics· 2025DOI
Enrique M. Arpa
Excited-state configuration controls the ability of nitroarenes to act as energy transfer catalysts
Nature Catalysis· 2025DOI
Martin Rihtaršič, Byeongseok Kweon, Piotr T. Błyszczyk, Alessandro Ruffoni, Enrique M. Arpa, Daniele Leonori
Excited-state configuration of nitroarenes enables oxidative cleavage of aromatics over alkenes
Science· 2025DOI
Wesley J. Olivier, Piotr Błyszczyk, Enrique M. Arpa, Kenshiro Hitoshio, Miguel Gomez-Mendoza, Víctor de la Peña O’Shea, Isabelle Marchand, Thomas Poisson, Alessandro Ruffoni, Daniele Leonori
Excited-state protonation and reduction enable the umpolung Birch reduction of naphthalenes
Chem· 2025DOI
Javier Corpas, Eva Rivera-Chao, Enrique M. Arpa, Miguel Gomez-Mendoza, Yuri Katayama, Victor A. de la Peña O’Shea, Céline Bouchel, Clément Jacob, Pierre-Georges Echeverria, Alessandro Ruffoni, Daniele Leonori
Front cover
Physical Chemistry Chemical Physics· 2025DOI
Photochemical permutation of meta-substituted phenols
Nature Communications· 2025DOI
Maialen Alonso, Giovanni Lonardi, Enrique M. Arpa, Baptiste Roure, Alessandro Ruffoni, Daniele Leonori
Deliverables (1)
Data Management Plan