Fysikk (avsluttede)

• C
  • Challenging atomistic processes in SiC (CapSiC)
  • Conducting Oxides and Nanostructures for Energy Technology (CONE)
  • Cross-scale modeling of CO2/hydrocarbon conversion in hydrofractured shale

• D
  • 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)
  • Dynamic interplay between defects and dopants in Zinc Oxide

• E
  • Efficient exploitation of the sun with intermediate band gap Silicon Carbide (SunSiC)

• F
  • Functional OXides through HOlistic UNDerstanding (FOXHOUND)

• H
  • Hydrogen in solar-grade p-type silicon: dominant complexes and solar cell efficiency (HydSil)

• I
  • Innovation driven education and science in modern photovoltaics via Norwegian-Chinese collaboration (IDEAS)

• M
  • Methodology for Interface and Defect Assessment in Semiconductors (MIDAS)

• N
  • Nanostructuring of novel semiconductors by ion beams (NanoSiB)
  • NEWSTAR
  • Novel Semiconducting Alloys in Energy Technology (SALIENT)

• P
  • Perovskites for Photovoltaic Efficient Conversion Technology (PERPHECT)

• S
  • Silicon based 3D mini- and microdosimeter (3DMiMic)
  • Solar Hydrogen

• T
  • Technologies for high performance wafer-level-encapsulated micro-sensors and micro-actuators (MSENS)
  • The Norwegian Research Centre for Solar Cell Technology (FME Sol)
  • THELMA - termoelektriske materialer

• U
  • Understanding of defects and impurities in ZnO; synthesis, doping, and band gap engineering (Understanding ZnO)

• W
  • Wide Bandgap Semiconductors - Defects and Dopants (WEDD)