Integrated photovoltaic-electrolysis devices
Part of our research is dedicated to the direct conversion of solar energy into carbon-free fuels.
Beskrivning av forskningen
Part of our research is dedicated to the direct conversion of solar energy into carbon-free fuels. In particular, we look at how to extract hydrogen from water through a supply of renewable electricity in PV-electrolyzers. Our research spans from the more fundamental understanding of the reactions at play, to the construction of functional prototypes that combine light harvesting and fuel extraction into real-world devices. Our primary interest is in the development of bifunctional heterogeneous transition metal-based electrocatalysts for the HER and OER. We handle synthesis, material characterization and electrochemical testing, to which we couple operando spectroscopic techniques, such as Raman spectroscopy, for a more comprehensive picture of the materials in the environments we design them for.
A scalable thermally integrated CuInGaSe (CIGS) photovoltaic-alkaline electrolyser
Within the PECSYS Project, we, Uppsala University and Solibro Research AB, developed a thermally integrated photovoltaic (PV)-electrolysis device made up of a CuInGaSe (CIGS) photovoltaic module and a FeNiOH (cathode)-FeNiOH (anode)-based alkaline electrolyser. Lab-scale devices (2-5 cm2) reach 10-13% solar-to-hydrogen (STH) conversion efficiencies while up-scaled devices (active area 80-100 cm²) reach 9-12% STH efficiencies for devices with 2×3-cell CIGS modules and thermally integrated non-precious catalysts (link to a short film).