Learn about the distinction between the two concepts biomaterials and tissue engineering and how they relate to each other.
Learn more about what tissue engineering is and how it is used.
Learn more about how batteries, supercapacitors and fuel cells work, and how and where they are typically used.
Striving towards a more sustainable energy system, surface properties, surface interactions and reactions taking place at surfaces, have important roles to play.
Learn more about how biocompatibility is defined and what this property entails
The paradigm shift from the study of static surface systems to the exploration of dynamic ones resulted in the field of gas-surface dynamics. The area includes concepts such as scattering, potential energy surfaces(PESs), energy exchange, surface corrugation, and charge transfer.
Surface science affects and contributes to areas: IT, materials and interface science, biomaterials, biotechnology, medicine, nanotechnology and cleantech.