Nanoindustry – is the field of development and production of nanoproducts, i.e. materials and structures, devices of the nanometer range.

Nanotechnology is one of the most promising areas of science and is a set of processes that allow you to create substances, materials, devices and technical systems, the functioning of which is determined primarily by their nanostructure.

Research in the field of nanotechnology is driving fundamental changes in the scientific and technological sectors and industry, as well as modernizing many sectors of modern production.

The Nanostructures Simulation program includes:

• deepening knowledge about the mechanical and plastic properties of nanostructures;
• development of methods for determining the physical characteristics of nanobodies, diagnosing their structure, and experimental methods for determining the mechanical characteristics of nanobodies;
• familiarization with strategies for obtaining and using low-dimensional structures and objects;
• studying the basics of 3D modeling and prototyping of nanostructures and nanoobjects;
• development of skills and abilities to create 3D models of real nanobodies.

The Thin Film Physics program includes:

• deepening knowledge about the physics of thin films and their properties under various modifications;
• development of methods for applying thin films and nanoplates;
• familiarization with the physical phenomena occurring at various stages of the sputtering and thin-film growth processes;
• generalization and systematization of knowledge about existing theories of thin film growth, the relationship between the physical properties of thin films and their structure and defects;
• developing the skills and abilities to use microcontrollers to study the physical characteristics of thin films.

The Nanooptics program includes:

• mastering the basic scientific concepts used in nanooptics and nanocrystal crystallography;
• formation of knowledge about the basic properties of nanocrystals and the relationship between the structure and optical properties of nanomaterials;
• mastering 3D modeling and prototyping techniques for nanoobjects;
• familiarization with the basic principles of nanoelectronics;
• studying the main approaches to growing nanocrystals from aqueous solutions;
• development of skills and abilities to apply microcontroller programming methods for modern nanoelectronics.

Program curators:

Bibik Natalia Viktorovna – Engineer of the Research Service Sector of the Research Laboratory of Ion-Plasma Modification of Solids of the Department of Solid State Physics and Nanotechnology of the Faculty of Physics of the Belarusian State University, Master;

Abramov Sergey Andreevich – Engineer of the Department of Semiconductor Physics and Nanoelectronics, Faculty of Physics, Belarusian State University;

Yermakova Ekaterina Aleksandrovna – Senior Lecturer of the Department of Semiconductor Physics and Nanoelectronics of the Physics Faculty of the Belarusian State University;

Kondrus Ilya Vasilyevich – Head of the Laboratory “Nanoindustry and Nanotechnologies” of the National Children’s Technopark Educational Institution.

The programs are implemented with the assistance of Belarusian State University.

Microelectronics – this is a branch of electronics associated with the development and manufacture of devices and devices in a miniature (integrated) design. The field of microelectronics is considered one of the fastest-growing. Thanks to microelectronics, technologies have emerged that have contributed to the development of robotics, artificial intelligence and the Internet of Things.

The Microelectronics program includes:

• mastering the physical principles of microelectronics;
• studying the basics of digital logic using transistors;
• mastering the route for designing integrated circuits;
• development of ideas about automated design systems in microelectronics;
• implementation of projects for the development of integrated circuits using programmable logic systems.

The Digital Matter program includes:

• familiarization with the basics of the binary number system and the operation of digital circuits;
• mastering the Verilog, SystemVerilog, and VHDL programming languages for describing electronic devices;
• design of digital systems from simple logic elements to complex functional units;
• familiarization with the full cycle of digital circuit development: from computer modeling to testing of the finished device;
• use of modern engineering programs (ISE, Vivado Design Suite) and equipment (debugging electronic boards based on programmable logic integrated circuits manufactured by Xilinx) when performing research projects.

Program curators:

Stepanov Andrey Anatolyevich-Associate Professor of the Department of Micro-and Nanoelectronics of the educational institution “Belarusian State University of Informatics and Radioelectronics”, Candidate of Technical Sciences, Associate Professor;

Sergey A. Biran-Senior Lecturer of the Department of Micro-and Nanoelectronics, Deputy Dean for Research (on a voluntary basis) of the Faculty of Radio Engineering and Electronics of the educational institution “Belarusian State University of Informatics and Radioelectronics”, Master of Technical Sciences;

Lovshenko Ivan Yuryevich-Senior lecturer of the Department of Micro-and Nanoelectronics of the educational institution “Belarusian State University of Informatics and Radioelectronics”;

Pavel Novikov is an assistant at the Department of Micro-and Nanoelectronics of the Belarusian State University of Informatics and Radioelectronics.

The programis реализуюimplemented with the assistance of the Belarusian State University of Informatics and Radioelectronics.