We are a research group specializing in the study of electronic and optoelectronic properties of solid-state materials, with particular focus on two-dimensional materials such as graphene, transition metal dichalcogenides, and other nanomaterials. Our work encompasses both fundamental research uncovering novel physical phenomena and applied projects aimed at developing advanced devices for electronics and photonics.
Our laboratory maintains a complete research cycle - from design and nanofabrication of complex heterostructures with precision electrical contact formation to comprehensive experimental investigations and theoretical modeling. We conduct cryogenic measurements in magnetic fields, study terahertz and infrared photoresponse, employ near-field microscopy techniques and other advanced experimental methods, complemented by thorough theoretical analysis.
Our research findings are regularly published in leading high-impact journals, including Advanced Materials (IF = 32.086), ACS Nano (IF = 18.027), Nano Letters (IF = 12.262), and other prestigious publications, demonstrating the quality and significance of our scientific contributions.
Our applied developments include creating component bases for neuromorphic computing, elements for high-speed wireless communication systems, and highly sensitive photodetectors for terahertz and infrared ranges.
These challenges are addressed by our team of researchers with unique international experience, including scientists who have trained at world-leading research centers and worked under Nobel laureates. The combination of profound fundamental knowledge with cutting-edge experimental techniques enables us to solve complex scientific problems at the intersection of various disciplines.
