Research projects (completed)
- C
- CATalyst transformations and LIFEtime by in-situ techniques and modeling (CATLIFE)
- Challenging atomistic processes in SiC (CapSiC)
- CO2 Management Technologies for Future Power Generation (BigCO2)
- CO2 utilization by formate dehydrogenase biocatalyst in a PhotoElectrochemical Cell (CO2BioPEC)
- Composite interconnects and nanostructured electrodes for proton conducting membrane reactors
- Conducting Oxides and Nanostructures for Energy Technology (CONE)
- Conversion between Magnetic, Electric, and Thermal energies in phase-transforming (COMET)
- Cross-scale modeling of CO2/hydrocarbon conversion in hydrofractured shale
- D
- DESEMAT - Design of Efficient Solar Energy
- Designing rules for enhancing SURface KINetics in functional OXides for clean energy technologies
- Development of a Hetero-Junction Oxide-Based Solar Cell Device (HeteroSolar)
- Development of scientific bases of tailor-made design of functionally graded nanocomposite cathode materials for both IT-SOFCs and PC-SOFCs (PROTON)
- Dual phase membranes for CO2 separation in power generation (DualCO2)
- Dynamic interplay between defects and dopants in Zinc Oxide (DYNAZOX)
- E
- F
- Functional oxides for clean energy technologies: fuel cells, gas separation membranes and electrolysers (FOXCET)
- Functional OXides through HOlistic UNDerstanding (FOXHOUND)
- Functionalizing Defects in Advanced Semiconductors (FUNDAMeNT)
- Fundamentals of Surface Kinetics in High Temperature Electrochemistry (FUSKE)
- G
- H
- H2 production at IntermediAte temperAture
- High temperature electrolyser with novel proton ceramic tubular modules of superior efficiency, robustness, and lifetime economy (ELECTRA)
- High-performance tandem heterojunction solar cells for specific applications (SOLHET)
- High-Power Solid State Lithium Batteries
- Hydrogen in solar-grade p-type silicon: dominant complexes and solar cell efficiency (HydSil)
- I
- K
- M
- N
- Nanoceramics – a new class of proton conductors for hydrogen fuel cells and electrolysers (NaProCs)
- NanoMILiB - Nano-Materials for Improved Lithium Batteries
- NanoReactor
- Nanostructuring of novel semiconductors by ion beams (NanoSiB)
- New primary standards and traceability for radiometry (NEWSTAR)
- Nitrogen in Oxides (NITROX)
- NOFCO - NOvel Features of Complex Oxides
- Novel Approaches to Magnetostructural phase transitions in Metallic systems (NAMM)
- Novel concepts for cold activation of energy-intensive chemical processes (COLD)
- Novel molten carbonate/ceramic composite materials for sustainable energy technologies with CO2 capture and utilization
- Novel molten/solid composite oxygen transport membranes for CO2 capture
- Novel photoelectrocatalytic concepts for conversion of water, carbon dioxide, and nitrogen to fuels and chemicals (PlusUltra)
- Novel Semiconducting Alloys in Energy Technology (SALIENT)
- O
- P
- S
- Self-healing ceramic membranes with increased lifetime for CO2 capture in industrial processes and power production (SEALEM)
- SiALD - Novel Silicon deposition processes by ALD
- Silicon based 3D mini- and microdosimeter (3DMiMic)
- Solar Hydrogen
- Solar-based H2 generation in novel photoelectrochemical cells using engineered hydrogenases as biocatalysts (PH2BioCat)
- Solid Electrolytes for Li and Na-ion Batteries (SELiNaB)
- Solid-state photoelectrochemical hydrogen production (SPECHY)
- Stack technology for ceramic proton conductors (StackPro)
- Surface protonics for oxide-based electrochemical energy devices (SUPROX)
- T
- Technologies for high performance wafer-level-encapsulated micro-sensors and micro-actuators (MSENS)
- TESIL
- The Norwegian Research Centre for Solar Cell Technology (Solar United)
- THELMA - thermoelectric materials
- Thermoelectric oxides for high-temperature conversion of solar and waste heat to electrical energy (THERMEL)
- Thermoelectrics for industrial applications (THERMiO)
- TOPCAT - Taming recOnstruction and loss of Platinum metals in high temperature industrial CATalytic processes
- U