Nanotechnology

Do you want to develop technologies that were considered science fiction just yesterday? Are you fascinated by modern science, new materials, and smart solutions that make the world faster, stronger, and more sustainable? Then we have a revolutionary field just for you — one that lets you see where the human eye can’t reach… and still change everyday life.

Imagine being able to influence the properties of materials atom by atom. Designing ultra-thin, strong, and lightweight structures for the batteries of the future, nanomaterials for smart medicine, or new components for space technologies and electric vehicles. You will learn to master technologies that are shaping tomorrow:

• microscopes so powerful they reveal the world at the molecular level,
• 3D nanostructures that can “work magic” with electrical and mechanical properties,
• methods that combine science, creativity, and courage into one.

With us, you won’t experience boring lectures. You’ll take part in experiments, get hands-on equipment you’ve only dreamed of, and learn to understand concepts like nanotubes, graphene, quantum dots, or thin films — and most importantly, learn how to use them. Nanotechnology will open the door to a world of innovation where you can be a researcher, technologist, and creator of something entirely new.

If you’re looking for a modern, forward-looking, and prestigious field that opens the door not only to a great career but also to the opportunity to change the world, Nanotechnology is the right choice. Don’t wait for the future — start creating it today.

Program Overview

The Nanotechnology study program represents a modern, dynamically developing field that combines knowledge from physics, chemistry, and materials engineering while responding to current needs of industry and scientific research. Its aim is to prepare experts capable of designing, characterizing, and testing nanomaterials with unique properties — the foundation of innovation across numerous industries today.

The program is highly interdisciplinary, combining theoretical education in natural sciences with practical training in modern laboratories, where students acquire hands-on experience in the preparation, measurement, and evaluation of nanomaterials. At the same time, it emphasizes understanding the technological and environmental impacts of these cutting-edge technologies.

Why Study This Field?

Nanotechnology offers a revolutionary approach to solving both technical and societal challenges. Graduates of this program have the opportunity to participate in the development of innovative materials and technologies that shape the future of medicine, electronics, the automotive industry, and energy.

The program provides an attractive combination of scientific fundamentals and practical experience, preparing students for high professional competence and flexibility in their future careers.

The goal of the Nanotechnology program is to provide education that prepares graduates to work in laboratories alongside technicians, physicists, and chemists in industry, research institutions, and technology departments of companies focused on modern and especially nanotechnological processes.

Practical Orientation of Studies

The program includes practical exercises and experiments conducted in state-of-the-art laboratories equipped with advanced instruments such as electron microscopes and nanomaterial characterization devices.

Students learn how to prepare samples, measure the physical and chemical parameters of materials, and interpret results. Emphasis is placed on independence, precision, and the ability to present one’s findings. The teaching process is closely linked to current trends and the needs of industrial practice.

Graduates of the program will acquire:

• theoretical knowledge of mathematics, physics, and chemistry necessary for nanomaterial characterization,
• an overview of methods for preparing nanomaterials and evaluating their properties,
• the ability to work with modern instrumentation and perform precise measurements,
• skills in experimental design, data interpretation, and conclusion formulation,
• familiarity with scientific literature and the ability to communicate in a foreign language.

Graduates find employment mainly in:

• laboratories and research institutes focused on the development and characterization of nanomaterials,
• industrial companies using advanced materials and technologies,
• technology departments of firms involved in innovation of production processes,
• positions such as operators of sophisticated instruments, technologists, or research specialists.

Graduates may also continue in a master’s program in Nanotechnology or in related fields focused on materials and modern technologies.