The Canepa Research Lab works on the design of materials from first-principles methodologies.

We apply computational methods to advance the understanding of materials properties for energy storage and conversion. Our research leverages the synergy between materials science, thermodynamics, electrochemistry and the power of supercomputers for the discovery of novel materials and molecules. The models derived from our research contribute to the rational design of new materials for clean energy technologies, such as electrode materials for batteries, ionic conductors and liquid electrolytes for energy-dense and sustainable energy storage systems.

The Canepa Research Lab works on the design of materials from first-principles methodologies.

Recent News

Sodium batteries could one day power a green economy!

Piero named as ACS Materials Au Rising Star in Materials Science!

Eshaan from Caltech visit our laboratory

Recent papers

Correction to "Pushing Forward Simulation Techniques of Ion Transport in Ion Conductors for Energy Materials"

Correction to “Stacking Faults Assist Lithium-Ion Conduction in a Halide-Based Superionic Conductor”

Correction to “Thermodynamics of Sodium–Lead Alloys for Negative Electrodes from First-Principles”