JOMI-LEMAN SA - France
Author Profile
SCOPUS
🎓 Early academic pursuits
Dr. Daniel Fruchart began his academic journey with a master’s degree in pure and fundamental mathematics in france, followed by a second master’s in physics and crystallography in grenoble. he earned his phd and state doctorate (habilitation à diriger des recherches) from grenoble, focusing on neutron diffraction studies of metal perovskites and intermetallic carbides and nitrides. under the guidance of a prestigious jury, including nobel laureate louis néel, fruchart laid a strong foundation for a career rooted in materials science and condensed matter physics.
💼 Professional endeavors
Fruchart served as a cnrs research director at institut néel in grenoble, where he managed advanced studies in intermetallics and interstitials for energy conversion. he later became a co-ounder and research director at mcphy energy sa (2008–2014), focusing on solid hydrogen storage—a key technology in power electronics and clean energy systems. his entrepreneurial spirit led him to establish hollyflow – eurl, providing consulting expertise in materials and energy systems. in 2021, he co-founded jomi-léman, continuing his work on hydrogen-based materials and tank systems.
🔬 Contributions and research focus
Daniel fruchart has significantly advanced research in hydrogen storage, magnetocalorics, and solid-state materials for clean energy. he has supervised over 40 doctoral theses, guided more than 110 international post-docs and scientists, and led research groups such as iice (intermetallics & interstitials – energy conversion) at institut néel. his patents reflect a deep massive Solid State Hydrogen Storage engagement with spd metallurgy, magnetic nano-layers, and metal hydride systems, which are integral to power electronics and renewable energy applications.
🌍 Impact and influence
With a global footprint, fruchart has led 32+ r&d contracts across multiple countries, coordinated nine european union research projects, and collaborated through international platforms massive Solid State Hydrogen Storage like the iea, iaea, lia, and pics. he co-directed the french-spanish european laboratory manes and contributed to major international hydrogen initiatives, earning him an authoritative voice in the fields of materials science and energy innovation, both of which intersect critically with power electronics in modern infrastructure.
🏆 Accolades and academic cites
Fruchart’s pioneering work has been widely recognized with awards from the société française de chimie (1986), sociedad de materiales de españa (1994), and ade me for massive Solid State Hydrogen Storage magnetocalorics (2004). he was honored with the yves rocard award (2012), international institute of refrigeration award (2012), and two prestigious european patent office awards in 2023. most recently, he received the green hydrogen award at the international conference in rabat (2024). his research is widely cited in academic publications focused on crystallography, hydrogen systems, and energy conversion materials.
📚 Legacy and future contributions
As an associate member of the académie delphinale since 2024 and currently based at jomi-léman, daniel fruchart continues to influence the scientific community through innovation in hydrogen storage technologies. his leadership in both academic and industrial contexts serves as a model for integrating theoretical science with applied power electronics, ensuring sustainable advancements in energy systems. fruchart’s legacy lies in bridging science and application, making a long-lasting contribution to green technologies and the circular economy.
Notable Publications
Instances of Safety-Related Advances in Hydrogen as Regards Its Gaseous Transport and Buffer Storage and Its Solid-State Storage
Impact of severe plastic deformation on kinetics and thermodynamics of hydrogen storage in magnesium and its alloys
Hydrogen Solid State Storage on MgH2 Compacts for Mass Applications
Review: On the complex magnetic phase diagram of the MnRuxRh1−xAs system,crystal, a.c. susceptibility, magnetization and electronic structure characterizations
Role of induced elastic deformations at the Mg/MgH2 transformation