New frontiers in photocatalysis with converted fertilizer material

29 04 2026

We published a collaborative study with researchers from Politecnico di Torino, focusing on the design and characterization of advanced photocatalytic materials for light-driven energy conversion. In this work, we contributed extensive electronic-structure and materials simulations that demonstrated a favorable band alignment for catalytic operation under illumination. These calculations provided insight into charge separation and carrier transport, helping explain why the investigated material system shows promise for efficient photocatalytic activity.

The study combines experimental and computational approaches to better understand how low-dimensional and functionalized materials can support photoinduced catalytic processes. By identifying electronic configurations compatible with the desired redox reactions, the work helps guide the rational design of next-generation photocatalysts for sustainable energy and chemical applications.

The paper was published in ChemPhotoChem, a peer-reviewed journal from Chemistry Europe dedicated to photochemistry, photocatalysis, and light-driven materials research.

Cartabia Luca, Dubinina Yana, Barbieri Marianna, Wlazło Mateusz, Schweitzer Pascal, Wang Mengjiao, Lamberti Francesco, Zoppellaro Giorgio, Schlettwein Derck, Smarsly Bernd, Osella Silvio, Đorđević Luka, Giusto Paolo, Gatti Teresa, ChemPhotoChem2026, 10, e202600008. https://doi.org/10.1002/cptc.202600008

« Mapslab at MATSUS Spring

Recent news

New frontiers in photocatalysis with converted fertilizer material

Mapslab at MATSUS Spring

Three members of our group participated in the international conference held in Barcelona, Spain, from March 23–27, 2026. The event brought together researchers working at the forefront of materials science, ...

View all

Recent publications

Y. Yin, F. Xu, M. Wlazlo, Y. Chen, G. Wen, G. Velpula, S. Bockmann, M. R. Hansen, S. De Feyter, K. S. Mali, W. Liu, S. Osella, M. Bonn, H. I. Wang, K. Mullen, X. Feng and Y. Mai, Porphyrin-Functionalized Graphene Nanoribbons in Solution Phase, J Am Chem Soc 148 (5), 5012 (2026), https://doi.org/10.1021/jacs.5c15646.
M. Wlazlo, W. A. Goddard, 3rd and S. Osella, A practical computational protocol for photocatalytic reactions beyond ground-state approximations, Chem Commun (Camb) 62 (16), 4828 (2026), https://doi.org/10.1039/d5cc06211j.
M. Langer, L. Zdrazil, A. L. Rogach, S. Osella and M. Otyepka, Photoexcited species localize on solvent-accessible fluorophore-rich domains inside carbon dots, Carbon 249, 121228 (2026), https://doi.org/10.1016/j.carbon.2026.121228.
D. D. Kruger, F. J. Recio, M. Wlazło, S. Osella, A. Primo and H. Garcia, Facile molten salt synthesis of bimetallic NiFe-Ti3C2Tx MXene nano-hybrid as an efficient oxygen evolution electrocatalyst, npj 2D Materials and Applications 10 (1) (2026), https://doi.org/10.1038/s41699-026-00660-x.
D. D. Kruger, M. Cabrero-Antonino, S. Osella, F. Y. Xu, J. G. Yu, A. Primo and H. Garcia, Surface-State-Regulated Product Distribution in Photothermal CO2 Hydrogenation Over MXene-Based S-Scheme Catalyst, Angewandte Chemie-International Edition, e8425918 (2026), https://doi.org/10.1002/anie.8425918.
Q. Chen, M. Guizzardi, F. Mendez, C. Ju, H. R. Keller, G. Cerullo, S. Osella, F. Scotognella, G. M. Paterno, K. Mullen and A. Narita, Diels-Alder reaction affords circumpyrene tetracarboxydiimide with excited state intramolecular charge transfer character, Commun Chem 9 (1) (2026), https://doi.org/10.1038/s42004-026-01946-3.

More …