Anatolie Sidorenko, a prominent figure in the field of solid-state physics and nanotechnologies, was born on September 15, 1953, in Bălţi, Republic of Moldova. He holds the position of Director at the Institute of Electronic Engineering and Nanotechnologies D.Ghiţu of the Academy of Sciences of Moldova, located in Chișinău, Moldova. Sidorenko is of Russian nationality, married, and has two children.His academic journey includes earning a Master's degree in Microelectronics from the Technical University of Moldova in 1975. He pursued further studies, completing his Ph.D. in Physical and Mathematical Sciences in 1979 at the Physico-Technical Institute of Low Temperatures of the Ukrainian Academy of Sciences in Kharkov, Ukraine. Later, in 1991, he obtained his Doctor Habilitat degree in Physical and Mathematical Sciences from Chișinău, Moldova.Sidorenko's professional career spans several decades and includes positions such as Engineer, Senior Researcher, Head of Laboratory, and Director at various scientific institutions in Moldova. Notably, he has been serving as Director of the Institute of Electronic Engineering and Nanotechnologies D.Ghiţu since 2008.Throughout his career, Sidorenko has made significant contributions to the field of superconductivity, particularly in systems with reduced dimensionality. He has authored over 350 scientific papers, including 36 patents and 5 monographs. Some of his notable works include research on superconducting nanoelectronics and the experimental observation of phenomena like the triplet spin-valve effect and memory effect in layered heterostructures.Sidorenko has also been actively involved in academic and organizational activities, serving as President of various symposiums and conferences. He has received numerous awards and honors for his scientific achievements, including State Prizes and medals from both Moldova and international organizations.In summary, Anatolie Sidorenko's extensive research contributions, leadership in scientific institutions, and involvement in international collaborations have significantly advanced the understanding and application of superconductivity and nanotechnologies.