Our research centers on the design and development of novel inorganic and hybrid organic–inorganic materials aimed at tackling pressing societal challenges. By combining creativity with advanced materials science, his work contributes to innovative solutions in medicine, environmental protection, and sustainable energy. Additionally, part of his efforts is devoted to the preservation and conservation of cultural heritage, ensuring that scientific progress also safeguards the past.
Developing materials for local drug administration to reduce side effects and toxicity. This includes the design of antibacterial systems and cellular regenerators.
Design and application of new catalysts to achieve environmental protection and economic benefit. Current projects include biomass valorization and pollutant conversion.
Creation of hybrid colored materials with reduced toxicity and enhanced stability, enabling applications in ceramics, solar cells, and photocatalysis.
Design and synthesis of materials aimed at restoration and preservation of artworks, historic buildings, and artifacts.
Advanced characterization of materials using solid-state NMR (including triple-resonance and dynamic polarization) and adsorption of probe molecules (xenon, nitromethane, phosphines) to study local properties such as acidity, polarity, pore structure, and surface roughness.
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