With the virtual battery Trimet has made the energy-intensive electrolysis process for the aluminum production more flexible enabling the use of renewable...
Research on artificial biofilms to enable the integration of electrogenic microorganisms in biofuel cell technology is presented.
A review of the latest development in the molecular design of zinc porphyrins for dye-sensitized solar cells.
The fundamental capabilities of inkjet and aerosol jet printing relevant to electrochemical devices are reviewed and future challenges are discussed.
A highly efficient one-dimensional ORR carbon catalyst via a MOF-derived approach.
Thermally activated delayed fluorescence (TADF)-type compounds have potential to become high-efﬁciency-solid-state lighting technologies in the future.
With the research project NEST-DC the technological basis is set for high performance electronic circuit breakers.
Replacing the commonly used ITO/Ag contact stack with aluminum allows for an increased efficiency and lower manufacturing costs of heterojunction solar cells.
Quantum mechanical calculations uncover lithium-stable materials out of a variety of chemistry across the periodic table.
Supercritical carbon dioxide induced reverse micelles were used to create metallic 1T-phase molybdenum disulfide and tungsten disulfide nanosheets for hydrogen generation.