I conduct scientific research in the field of surface physics and solid-state physics. In particular, I specialize in studying the electronic structure of two-dimensional materials such as silicene and graphene, as well as materials in the form of thin layers or atomic chains using an experimental technique called angle-resolved photoelectron spectroscopy (ARPES).

Additionally, I have experience working with the nanoARPES technique (where a light beam with a diameter of about 500 nm is used), gained during an internship at the Elettra Synchrotron Radiation Facility in Trieste, Italy, on the Spectromiscroscopy line.

Moreover, I am interested in CAD design, digital electronics, microcontroller programming, photography, and meteorology.

In 2015, I defended my Ph.D. thesis titled "Electronic Structure of Ultrathin Au Layers on Si Surface."

Since October 2015, I have been working at the Department of Surface Physics and Nanostructures. I focus on studying the electronic properties of nanometric systems using angle-resolved photoelectron spectroscopy (ARPES).

In 2022, I completed an internship at the Elettra Synchrotron Radiation Facility in Trieste, Italy, on the Spectromiscroscopy line, where I gained additional experience with the nanoARPES technique (which uses a light beam with a diameter of approximately 500 nm).

My research includes, among other things, thin metal layers (a few atomic layers thick) deposited on silicon substrates, one-dimensional systems created on vicinal (stepped) surfaces, as well as graphene samples.

The current list of publications can be found on the Google Sholar service.