Our Research
"Our team aims to unveil new sustainable methodologies in organic chemistry, uncovering novel chemical reactivity concepts that enable the synthesis of powerful molecular structures with valuable properties. These advancements open up new opportunities for addressing challenges in small molecules and biomacromolecules."
Medicinal chemistry
Organic chemistry
Computational chemistry
Photocatalysis
Harnessing the energy of light, organic photocatalysis enables sustainable and precise chemical transformations that are otherwise difficult to achieve. This cutting-edge approach redefines efficiency and selectivity in organic synthesis.
Skeletal Editing
Skeletal editing transforms molecular frameworks through targeted bond manipulation, providing a powerful tool for altering the core structure of molecules. By enabling access to previously unattainable chemical architectures, it addresses critical needs in drug development and materials science.
Bioconjugation
By linking synthetic molecules with biological macromolecules, bioconjugation opens new avenues in precision medicine and diagnostics. It plays a vital role in creating hybrid systems for targeted therapies and advanced biomedical applications.