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Seksjon for Faststoff-elektrokjemi (FASE)
Section for Solid-state electrochemistry
Truls Norby & Reidar Haugsrud
FASE Research group at Department of Chemistry
FERMiO Functional Energy Related Materials in OsloTop-tier group at SMN/MN faculty
SMN Centre for Materials Science and NanotechnologyCentre at the MN faculty
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Section for Solid-State Electrochemistry (FASE)
Our research in solid-state electrochemistry has elements of◦ Inorganic chemistry
◦ Physical chemistry
◦ Materials chemistry
◦ Nanotechnology
◦ Computational materials science
Typical applications of our research comprise◦ Clean and efficient energy conversion technologies
Renewable energy harvesting and storage Hydrogen technologies Carbon capture and better uses of fossil fuels Catalysis and photocatalysis
◦ Materials synthesis, fabrication, use, and degradation/corrosion
FASE
Professor Truls Norby Assoc. professor Reidar Haugsrud 1 technical 1 administrator 6 post-docs 12 PhD-students 6 Master-students Visiting researchers Exchange, project, and internship
students
Total ca 30
Located in Oslo Innovation Centre (Forskningsparken)
FASE Technologies
Functional energy related materials
CO2-free fossil energy
◦ Gas separation membranes
◦ Fuel cells
Hydrogen technology◦ Fuel cells
◦ Steam electrolysis
◦ Photo-electrochemical splitting of water
High temperature corrosion
Sensors for extreme conditions◦ High temperature, corrosive environments, Space, Nuclear power,
Energy processes
Clean water and air – photocatalysis
Thermoelectric materials
◦ Solar and waste heat utilisation
FASE Science
Defects in crystals◦ Defect chemistry
◦ Transport
◦ Emphasis on oxides and hydrogen
Solid state reactions
Electrode reactions
Relation between structure, composition, and functional properties
Design, make, characterize, and model new materials
Questions:
◦ H+ in oxides? H in oxides? H- in oxides?
◦ N3- in oxides?
◦ Cation diffusion in oxides? Lifetime of devices?
◦ Novel solid-state proton conductors?
◦ Charge transfer mechanisms in electrodes?
◦ Why do grain boundaries behave so differently?
◦ How does a photocatalyst work?
6
FASE Methods• Synthesis• Sample preparation• Structure: XRD• Microstructure: SEM
• Measurements of concentration and transport of defects– Thermogravimetry– Reaction rates– Diffusion– Permeability– Electrical properties
• Electrochemical studies– Fuel cell tests– Electrode kinetics– Photoelectrochemistry
• Further characterization, often in collaboration: – TEM, XPS, SIMS, ND…
• Computational simulations of structure and defects
Examples of current FASE project possibilities
Pulsed Laser Deposited (PLD) films for fuel cells, electrolysers, and gas separation membranes
Proton conducting oxides for fuel cells and electrolysers; measurements and computational approaches
Electrodes for H+-conducting fuel cells and electroysers New proton-electron mixed conductors for gas separation membranes
Water splitting or CO2-to-fuel generation by solid-state photoelectrochemistry
Pure water by photocatalysis – is it possible? Thermoelectric oxides – from heat to electricity Grain boundaries and interfaces; TEM and properties Diffusion and surface kinetics – use of isotopes and ToF-SIMS Nitrogen defects in oxides
Combined computational and experimental studies
and more; depends on what is hot when you start, and your interests…
Take your Master of Science in FASE! Chemistry
◦ Materials chemistry
◦ Inorganic chemistry
◦ Physical chemistry
MENA◦ Materials, energy and nanotechnology
Requirements
◦ KJM or MENA bachelor or similar
Recommended courses
◦ None in particular
Supervisors: ◦ Truls Norby [email protected] 22840654 99257611
◦ Reidar Haugsrud [email protected] 22840659
◦ + one PhD or post-doc co-supervisor