Nettsider med emneord «Nanotechnology»
NorFab provides access to state-of-the-art laboratories for Norwegian researchers, supporting and enabling research and innovation within micro- and nanotechnology.
Wireless solutions in brain research have so far been limited
by low data transmission, short recording time or bulky batteries and devices. Our objective is to develop a wireless Micro Electro-Optical system (MEMS) device for long-term, recording and manipulations of brain activity in rodents.
Welcome to an informal event about job opportunities. Get inspired or find exciting job opportunities!
The first department seminar of 2023 "Nanoparticle technologies for RNA therapeutics: Lipoplexes, LNPs and beyond" by Heinrich Haas, Vice President RNA Formulation & Drug Delivery at BioNTech RNA Pharmaceuticals.
This year's Hassel lecture is headed by Professor Veronique Van Speybroeck. The second day Professor Speybroeck will present the lecture "From quantum mechanics to machine learning: Bridging length and time scales in modeling nanoporous materials at operating conditions."
This year's Hassel lecture is headed by Professor Veronique Van Speybroeck. The first day Professor Speybroeck will present the lecture "Operando modeling of functional nanostructured materials for sustainable chemistry, nanosensing and clean energy."
This year's Hassel lecture is headed by Professor Veronique Van Speybroeck. The second day Professor Speybroeck will present the lecture "From quantum mechanics to machine learning: Bridging length and time scales in modeling nanoporous materials at operating conditions."
The first department seminar of 2023 "Nanoparticle technologies for RNA therapeutics: Lipoplexes, LNPs and beyond" by Heinrich Haas, Vice President RNA Formulation & Drug Delivery at BioNTech RNA Pharmaceuticals.
The aim of this project is to radically improve solar hydrogen production, by developing materials that effectively turn visible light into UV light.
The goal of the FUNCTION project is to develop novel oxide-based functionality compatible with the prevailing silicon technology for Photovoltaics (PV) devices by understanding and manipulating the electro-optical interaction between embedded semiconducting nanocrystals and a conductive oxide host material.
This year's Hassel lecture is headed by Professor Veronique Van Speybroeck. The first day Professor Speybroeck will present the lecture "Operando modeling of functional nanostructured materials for sustainable chemistry, nanosensing and clean energy."
PROTON is a collaboration project involving five European partners. The aim of the project is to develop new cathode materials for intermediate temparature SOFCs and PC-SOFCs.
In-situ TEM experiments shows that the tendency for elemental mixing- or segregation to occur in Pt–Rh nanoparticles depends on the nanoparticle size and temperature. The smaller nanoparticles (≲13 nm) are stable in the solid solution configuration over the entire studied temperature range. Larger nanoparticles (≳13 nm) tends to segregate when cooled to room temperature. The results are of importance to understand the thermodynamics of this specific Pt–Rh nanoparticle system and it add value towards applications like catalysis, whereof e.g. supported Pt–Rh nanoparticles are attractive candidates for NH3 slip abatement processes.