The work in Prof. Sabrina Sartori's research group broadly encompasses materials and devices with a particular focus on energy technologies. Her group´s work includes synthesis, characterisation and scale-up of hydrogen-based materials for vehicular and large-scale applications; batteries; modeling Contact online >>
The work in Prof. Sabrina Sartori''s research group broadly encompasses materials and devices with a particular focus on energy technologies. Her group´s work includes synthesis, characterisation and scale-up of hydrogen-based materials for vehicular and large-scale applications; batteries; modeling of components and hybrid storage systems.
Recent past projects:AtLAST (Horizon 2020);Hydrogen production from offshore wind,industrial project;INNOVENAT, The sustainable pursuit of energy storage for transformational telescopes;2D MXenes based anode materials for all-solid-state Li-ion batteries
National:the Departments of Chemistry, Physics, Informatics, and Institute of Theoretical Astrophysics at UiO; Institute for Energy technology (IFE), Norwegian Defence Research Establishment (FFI), H2Cluster;UNITECH; Siemens Smart Infrastructure Nordic
International (examples): Université du Québec à Trois-Rivières, University of Catania, Helmholtz-Zentrum Geesthact, University of Pavia, Adama Science and Technology University; University of Campinas
Hydrogen: PEM fuel cell stack and system modeling (link); The role of the air supply system for proton exchange membrane fuel cells at high elevations; Hydrogen from offshore wind - The role of life cycle assessment in the optimal infrastructure design (link); Combined Hydrogen and Offshore Wind Production - Design and Market Value (link); Proton Exchange Membrane Water Electrolyzer Modeling (link); Modelling and validation of a Fuel Cell Electric Bus (link); Ti1.1CrMn and its hydrides for the application in thermal hydrogen compression (link)
Batteries:Cycle Life prediction of Lithium-ion Batteries Using Machine Learning (link);Safety issues of Li-ion batteries (link);Prediction of Battery Materials Properties with Machine Learning (link);Advanced Modelling of NiMH Batteries (link);In situ operando SAXS and WAXS characterization of the anode materials (a-P/C and FeSb2) for rechargeable sodium ion batteries (link)
Other topics:Antimony selenide based solar cells (link);Building-integrated photovoltaics in Norway, challenges and standards (link);Wind-Driven Clouds - Utilizing wind energy in data centers (link);How will different politics affect the energy system? (link);Conductivity and Defects in Al-doped Li7La3Zr2O12 - A solid-state Li-ion conductor (link)
How to transport electricity from wind turbines far out to sea in a cheap way? Titan (2023); Verdensrommet utforskes med diselaggregater, Titan (2023);Smart energilagring bidrar til å berge klimaet, Titan (2020);Astronomy sets new records with revolutionary telescope, Titan (2020);Slik kan Norge gjøre mer for det globale klimaet, Titan (2019);UiO-forsker samarbeider med nobelprisvinneren i kjemi, Titan (2019);UiO researchers have a goal: More solar and wind energy in the electricity grid, Apollon (2017);Nye batterier er en "game changer", Titan (2016)
Muhammad Salman (PhD); Emil Høj Jensen (PhD);Bjørn Aarseth (PhD);Bruno Hessel Silva;Guillermo Valenzuela; Jesus Marcos Torero;Igor Spegiorin Vicente; Federico Mandrioli; Abderrahim Eddafi;Ådne Iversen
Isabelle Viole (PhD); Torbjørn Egeland-Eriksen(PhD);Marco Blasius (visiting PhD);Mari Øgaard (PhD); Jonas Sottmann (PhD); Fleur Legrain (visiting PhD); Elbruz Baba (PhD);Hans Kristian Haraldseth; Lasse Øien; Hugo Morales; Antonio Barile; Omid Gholamighasri; Andreas Dyve; TobiasHvidsten; Hans Aleksander Skorgen;Johan Gustafsson; Kristin Alvestad;Jonas Flatgård Jensen;Jørgen Osnes; Charilaos Zorogiannidis; Kristine Fuglestad;Ulrik Sandvei;Jørgen Tuset; Sondre Torp; Aleksander Elstad; Jonas Kolding; Karoline Sjøen Andersen; Morten Østigård; Idun Regine Skarbø Osnes; Mauro Povia
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