The overall goal of the project is to launch a novel hearing instrument, which can be recharged by the user within 30 seconds. Widex, Sonion and DTI have previously demonstrated the technology where
The project aims to promote the commercialization of plastic solar cells. The goal is to develop an ink for producing the solar cell of the central portion, which absorbs the sun's energy.
The project wil make it possible to produce hydrogen in smaller systems using induction heating in catalytic processes. This makes hydrogen production flexible in terms of use of the surplus power
A wide variety of chemicals and materials are today produced with fossil fuels as a starting point. The ProActivE project will develop new catalysis methods where the electricity, air and water are
Energy renovation of a residential benefits the operating budget, but it also has a number of social, cultural, architectural, and health consequences. A new research project will develop a model that
The aim of the present Societal Partnership is to facilitate growth and secure Danish
jobs by leveraging the possibilities of advanced materials and surface-solutions in
new products.
The DreamWind project is a collaboration between Vestas, Aarhus University and the Danish Technological Institute aiming at the development of novel recyclable composite materials for future wind
In the current project we introduce a novel, knowledge-based principle for the design of enzymes that effectively degrade biomass at high temperatures (over 50 C).
The vision of HiGradeGas is to overcome the barriers towards a wide-spread and
sustainable use of biogas in the Danish energy system by improving the cost
efficiency of (i) biogas upgrading and (ii)
FutureGas seeks to stimulate: an efficient and economical supply of gas - including gas based on renewable sources, an appropriate and flexible use of these gases, and an optimal integration of gas in
The project develops proton-conducting and mixed proton-electron conducting materials stable in atmospheres containing CO2. The materials will be used in future energy-efficient and environmentally
The objective of the project was to improve the durability of the membrane electrode assemblies of PEM fuel cells by studying the basic degradation phenomena of carbon supported Pt catalysts and
Center for Energy Materials develops materials which play key roles in the creation, storage or conversion of energy, thus underpinning future energy systems. The Center has focused on five areas
The EU's and the Danish government's goal of replacing major parts of fossil fuels with sustainable energy sources requires new processes to be developed for conversion and storage of energy, for
Use of cellulose for biofuel production requires the cellulose to be degraded into small molecules. Several different enzymes can be used for this prupose. The project aims to develop a method for