Photo: Mikal Schlosser
05 NOV

Digital twins to take industry into the future

Tests and experiments can provide new knowledge and the ability to predict the behaviour of materials and durability with ever greater precision. This is achieved by means...

Information technology Data analysis Mathematical modelling Physics Wind energy Materials Production and management
Electrochemical energy conversion. Schematic showing electrochemical conversion of water, carbon dioxide, and nitrogen into value-added products (e.g., hydrogen, hydrocarbons, oxygenates, and ammonia), using energy from renewable sources. The combination of theoretical and experimental studies working in concert provides us with insight into these electrochemical transformations and guides the development of the high-performance electrocatalysts needed to enable these technologies.
19 JAN

Electrocatalysis can advance green transition

Renewable energy is providing an increasing share of the energy supply, but to ensure the green transition continues, it must also be able to furnish us with the fuels...

Catalysis Micro and nanotechnology Metals and alloys Nanoparticles Fuel cells Energy storage Fossil fuels Solar energy Wind energy
Transparent conductive zinc oxide for touchscreens and solar panels
03 NOV

DTU team got very close to winning EU cleantech final with new material for touchscreens

Two young researchers from DTU Energy Conversion, Li Han and Dennis Valbjørn Christensen, won the Danish finals and got close to winning the EU finals of CleanLaunchpad...

Materials Solar energy Sensors Micro and nanotechnology
Illustration for TEMOC and ECoProbe
13 OCT

Watching live how fuel cells and electrolysis cells operate at the nanoscale

Researchers at DTU will monitor the reactions and processes in operating fuel cells and electrolysis cells at the nanoscale, observing weak spots as they evolve, making...

Fuel cells Sensors Micro and nanotechnology Physics Nanoparticles Electrochemistry
Transparent conductive zinc oxide for touchscreens and solar panels
09 OCT

New material for touchscreens have the same properties, but are 150 times cheaper

Two PhD students from DTU Energy Conversion, Li Han and Dennis Valbjørn Christensen, may be able to substitute the widely used but expensive indium tin oxide (ITO...

Solar energy Materials Micro and nanotechnology Sensors
DTU in Profile

Published annually, DTU in profile gives you fact & figures and a short presentation of the University.

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