Electrochemistry Group - Politecnico di Torino

Electrochemistry Group - Politecnico di Torino The research group on Li and post-Li batteries, solar cells and fuels, integrated energy conversion/storage systems. Led by Prof. Silvia Bodoardo, Prof.

Federico Bella, Prof. Teresa Gatti, Prof. Ilka Kriegel, Prof. Carlotta Francia, and Prof. Julia Amici.

Proud to announce MORPHEUS – MOdular Reconfigurable Platform for Health and Environmental Universal Sensing, a new Europ...
03/06/2026

Proud to announce MORPHEUS – MOdular Reconfigurable Platform for Health and Environmental Universal Sensing, a new European project coordinated by our group.
The project brings together 14 partners to develop a modular, reconfigurable platform for next-generation wearable sensing.
By combining 2D materials, flexible electronics and advanced sensors, MORPHEUS aims to enable continuous, non-invasive monitoring of key physiological and biochemical parameters.
A step forward toward smarter, conformable technologies for healthcare and environmental sensing!

We have just published a review article summarizing the fundamental mechanisms of slipping, discussing strategies to enh...
28/05/2026

We have just published a review article summarizing the fundamental mechanisms of slipping, discussing strategies to enhance anti-slip performance such as surface texturing, chemical modification, and filler incorporation. This review supports the development of next-generation anti-slip systems aimed at enhancing safety and functionality across diverse applications, energy included.

Read it here: https://advanced.onlinelibrary.wiley.com/doi/10.1002/admt.202501936

📄 Our new publication is now available online!In this study we investigates the impact of mass transport kinetics on rev...
25/05/2026

📄 Our new publication is now available online!

In this study we investigates the impact of mass transport kinetics on reversible and irreversible capacity losses in Lithium–Sulfur batteries.

1D model was developed using COMSOL Multiphysics to understand the role of limited mass transport kinetics as source of both reversible and irreversible losses. The model simulates four different scenarios of Li+diffusivity to investigate its role on the polysulfides behaviour and how it affects the performance of both short and long-term performances.

The results highlight the strong interplay between transport phenomena and electrochemical stability, providing useful insights for the optimisation of Li–S cell design.

Have a look to the full OA paper: https://www.sciencedirect.com/science/article/pii/S2352152X26023248?via%3Dihub

Still great memory of our Battery 2030+ Annual Conference, organized here in Turin, with more than 250 participants!Prou...
18/05/2026

Still great memory of our Battery 2030+ Annual Conference, organized here in Turin, with more than 250 participants!
Proud to be the Electrochemistry Group @ POLITO! ✈

In this new paper, a new P-doped carbon nitride was synthesized from the combination of thiourea and (NH4)2HPO4 by a str...
15/05/2026

In this new paper, a new P-doped carbon nitride was synthesized from the combination of thiourea and (NH4)2HPO4 by a straightforward and mild approach. The final material shows a fourfold higher specific surface area and excellent suppression of charge carrier recombination. Optimizing the P content, the semiconductor efficiently degrades 94%–100% of four persistent water-polluting dyes within 40–90 min under blue LED light.

Read it here: https://chemistry-europe.onlinelibrary.wiley.com/doi/10.1002/cptc.202600008

A few pics of the Battery 2030+ Annual Conference, we organized and hosted last week in Torino. We had the chance to pre...
13/05/2026

A few pics of the Battery 2030+ Annual Conference, we organized and hosted last week in Torino. We had the chance to present many of our research topics-related activities in front of an international community.

Happy to announce our new Doctor in Materials Science and Technology!Sabrina successfull defended her PhD thesis on sust...
23/04/2026

Happy to announce our new Doctor in Materials Science and Technology!
Sabrina successfull defended her PhD thesis on sustainable materials for potassium batteries, dealing with new solutions for anodes, cathodes and electrolyte components.
The jury has awarded Sabrina the PhD title cm laude.
Congratulations!

Our new paper investigates strategies for integrating low-temperature direct recycling of lithium iron phosphate product...
21/04/2026

Our new paper investigates strategies for integrating low-temperature direct recycling of lithium iron phosphate production scraps into battery manufacturing. Results indicate that recycled cathode active material can be directly reprocessed in new batteries exhibiting excellent electrochemical performance.

Read it here: https://www.sciencedirect.com/science/article/pii/S0378775326003083?via%3Dihub

Our latest publication is now available online!!!📄 “Optimization of binary binder blends for aqueous-based slurries of S...
09/04/2026

Our latest publication is now available online!!!

📄 “Optimization of binary binder blends for aqueous-based slurries of SiOx/C for next-generation lithium-ion batteries”

🔬 Our study focuses on binary mixtures of sodium alginate (ALG) and lithiated polyacrylic acid (LiPAA), evaluating their combined effects not only on the electrochemical performance of SiOx/C-based electrodes, but also on the actual processability of the resulting slurry.
💡 The novelty of this work lies in the systematic evaluation of binder synergy through a combination of rheological, morphological, and electrochemical characterizations, supported by a statistical analysis which permitted the identification of the role of each binder in the final electrode formulation.

🌱 A little step forward toward more sustainable and high-performance lithium-ion batteries.

Have a look, it’s in open access: https://www.sciencedirect.com/science/article/pii/S095965262600692X?via%3Dihub

Our new paper proposes a semiconductor–semiconductor junction as an effective strategy to enhance the photocatalytic per...
07/04/2026

Our new paper proposes a semiconductor–semiconductor junction as an effective strategy to enhance the photocatalytic performance of perovskite nanocrystal-based systems.

Read it here: https://pubs.acs.org/doi/10.1021/acsanm.5c05834

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