The project will involve 14 Early Stage Researchers, who have been selected to develop a novel technological platform for photonics based on an emerging class of semiconductors, metal-halide perovskites, with exceptional optical and electrical properties.
Researchers demonstrate a technique that tracks Brownian motion in three dimensions and characterization of individual nanoparticles using a fiber-based high-finesse microcavity.
Researchers have developed a tiny robot that mimics the movement of a starfish larva. It is driven by sound waves and equipped with tiny hairs that direct the fluid around it, just like its natural model. In the future, such microswimmers could deliver drugs to diseased cells with pinpoint accuracy.
Low-dimensional semiconductor materials are attracting enormous attention because of their strong potential for optoelectronic and energy-related applications. To date, however, it remains unclear whether Marcus theory is applicable to the charge transfer behavior of these materials.
Researchers developed a hybrid membrane based on two-dimensional nanohybrid materials, which can improve the performance of vanadium redox flow batteries.
