Biomedicine: From smart flexible smart patches to organs on a chip

We are developing cutting-edge biomedical technologies for early diagnostics, to enhance drug delivery. By focusing on the development of functional nanorobots, organs on a chip, flexible wearable sensors and smart patches, we strive to overcome key challenges in treating cancer, infectious diseases, cardiovascular disorders, and wound healing, among others. Ultimately, we strive to advance translational medicine, improving patient outcomes and expanding human lifespan

Environmental remediation: From cleaning soils to catching nanoplastics

Our motto for environmental remediation is (1) Monitor, (2) Remove, and (3) Restore. Environmental protection is an essential part of a sustainable civilization. Our research team is modernizing environmental remediation through the development of advanced nano/microrobots that monitor, remove and restore ecosystems. Our nano and microrobots, detect and remove micro and nano plastics and residual hormones from soils and wastewater..

Revolutionizing Sustainable Energy - energy from waste and noise

We are exploring the sustainable production of carbon-free fuels - for example, the clean production of hydrogen from water or the clean production of ammonia fuel; and next-generation energy storage solutions to help create a sustainable future. We are developing advanced single-atom catalysts that convert nitrate polutants into ammonia. At the same time, we are advancing alternative battery technologies - such as zinc-ion, sodium batteries. We are improving their safety and capacity, surpassing the properties of conventional lithium batteries. In these systems, we use nanorobots as active "living" elements, 3D printing for construction and design, and single-atom engineering for materials design. We are also exploring triboelectric nanogenerators , which harvest everyday mechanical energy - noise - for low-power devices, all while applying the "3R" (recycle, renew, reuse) concept.