Webpages tagged with «Nafuma»
The ambition of the OScAR project is to facilitate future commercial development of Na-ion batteries (NIBs) for stationary energy storage by establishing a fundamental understanding of a family of Sn-based anode materials capable of boosting the capacity of existing NIBs.
We welcome you to join the Kick-off of SMN's Strategic Thematic Area: Complex Oxide Electronics and Sensors
The aim of this project is to radically improve solar hydrogen production, by developing materials that effectively turn visible light into UV light.
The FLUFFY project aims to accelerate stationary energy storage research by developing cathodes for advanced sodium-ion batteries.
In-situ TEM experiments shows that the tendency for elemental mixing- or segregation to occur in Pt–Rh nanoparticles depends on the nanoparticle size and temperature. The smaller nanoparticles (≲13 nm) are stable in the solid solution configuration over the entire studied temperature range. Larger nanoparticles (≳13 nm) tends to segregate when cooled to room temperature. The results are of importance to understand the thermodynamics of this specific Pt–Rh nanoparticle system and it add value towards applications like catalysis, whereof e.g. supported Pt–Rh nanoparticles are attractive candidates for NH3 slip abatement processes.