The theme Advanced Materials benefits from Engineering input in biochemical and chemical engineering, applied physics, and mechanical and industrial engineering. Engineering expertise is offered in:
Electronics of materials
Research focuses on single molecule devices, molecular assemblies, 2Dimensional Carbon and other materials and 1Dimensional Carbon, oxides and inorganic semiconductors, organic-inorganic hybrids, and on functionalities with these materials: improved transport (transistors, spintronic devices); light collection and emission (photodetectors and light emitting diodes); data retention (memories); energy harvesting (solar cells, piezoelectrics and thermoelectrics).
Mechanical engineering of materials
Internationally reputed teams conduct research on: Casimir forces and MEMS, In-situ mechanical microscopy, Laser surface engineering and additive processing, Nanoparticles, Nano-composites and nano-porous materials, Phase change materials for memory, Size effects and multiscale plasticity, Smart materials for actuation and sensing
Research is conducted in the field of biobased chemicals and performance materials, include both chemo-catalytic and bio-catalytic approaches and encompass process and product engineering activities.
Of particular interest are:
- the development of techno-economically viable value chains including biomass selection and pre-treatment, conversion to low molecular weight building blocks which are subsequently converted to green advanced polymers and composites
- the development and optimization of advanced materials from biopolymers (starch, cellulose, lignin, proteins) and other natural products (fats, oil) by enzymatic conversion processes or chemical and physical modifications.
|Last modified:||31 January 2019 3.50 p.m.|