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We investigate the transduction between electronic signals and ionic/molecular signals in electroactive surfaces, iontronic chemical delivery and circuitry, biosensors, mimicking neural function, next-generation medical therapy, and many other areas.

We exploit and investigate the physics and chemistry of novel organic and composite materials to design and fabricate the next generation of energy devices.

The Soft Electronics group develops composite materials, design concepts and devices, moving electronics into the realm of soft and deforming systems.

Imagine a future where there is effective treatment for diseases of the nervous system and the brain. Magnus Berggren develop a new type of medicines for treating Alzheimer’s, Parkinson’s, ALS and cancer.

At Laboratory of Organic Electronics, LOE, we explore electronic and optical properties of organic materials and organic-inorganic hybrid systems.

The theoretical simulation and modelling of the basic properties of organic materials and devices represents the main focus of the research activity of our group.

By carefully placing nanostructures on a flat surface, researchers at LiU have significantly improved the performance of so-called optical metasurfaces in conductive plastics. This is a major step for controllable flat optics.

Researchers at LiU have developed a type of pipette that can deliver ions to individual neurons without affecting the sensitive extracellular milieu. The technique can provide important insights into how individual braincells are affected.

Using electrodes in a fluid form, researchers at LiU have developed a battery that can take any shape. This soft and conformable battery can be integrated into future technology in a completely new way.

We develop and study novel concepts based on the combination of unique features provided by conducting polymers and the exceptional light-matter interaction of plasmonic metal nanostructures.