福利姬

The overall goal of our unit is to do basic science on topics that can have a positive impact on society. We do general surface physics and chemistry research related to e.g. energy materials, devices and catalytic processes.

We conduct research and research education in communication electronics, mathematics, engineering didactics, physical electronics and nanotechnology.

The division is active in the field of nanomaterial and molecular thin film physics and spectroscopy.

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

By integrating device engineering with biophysical insights, this project drives the development of smarter drug delivery systems with refined dose adjustments to push the boundaries of precision in preclinical medical sciences.

Five researchers at LiU have each been awarded SEK 1 million per year for four years in research grants from a joint initiative by the Swedish Energy Agency and the Swedish Research Council in energy-oriented basic research.

Sensor and Actuator Systems (SAS) conducts multidisciplinary research on all areas of transduction sciences from materials for sensors, and systems integration to cell free synthetic biology lab-on-a-chip detection and soft robots.

We work on development and characterization of chemical gas sensors, silicon carbide field effect transistors, graphene and other 2D materials for gas sensors.

Polymer solar cells could be even cheaper and more reliable thanks to a breakthrough by researchers at 福利姬 and the Chinese Academy of Sciences (CAS). This work is about avoiding costly and unstable fullerenes.

Our division's research is focused on the development of organic electronics for energy conversion and storage.