University of Technology
Technological sciences
Master's Programme
Mode of studies: 
full-time programme
1,5 years
Tuition fee: 
4500 PLN per semester
Degree awarded: 
Master of Science
Scholarships available: 
After 1st year best students can apply for Rector's scholarship
Application deadline: 
Wednesday, 10 July, 2024
Day of semester start: 
Tuesday, 1 October, 2024
Credits (ECTS): 
Admission requirements: 

On our website - www.rekrutacja.p.lodz.pl under " International Candidates" you can find information concerning the admission process including: the list of required documents, available courses, grades required for entry, tuition fees, scholarships, contest- study for free, language requirements etc.

You can also use our search engine to check the programmes offered at TUL and choose the most suitable ones - https://rekrutacja.p.lodz.pl/en/study-programmes?jezyk[]=307&jezyk[]=308


The primary objective of education in the field of study nanotechnology is to prepare the graduate to meet professional challenges in the area that bring together chemistry, chemical technology and materials engineering both in the national and international job market. Second-cycle degree in this field are aimed at training specialists in this field who have solid knowledge of disciplines that lie at the base of nanoscience and who also have engineering skills critical for applying this knowledge in practice, which shall enable them to work in national and international academic as well as industrial research centers or continue studies in a third-cycle degree programme. In the course of the studies,  students advance their skills of practical applications of their knowledge of design, manufacturing, modification and analysis of nanomaterials. Their awareness of the threats that using nanoparticles and nanomaterials brings is raised as is their awareness of the impact on the natural environment and live organisms. Students advance their knowledge of mathematics, physics, chemistry, biochemistry and broadly defined materials science useful in problem-solving of complex tasks in nanoscience and interactions in the natural world. They acquire knowledge of, among others, contemporary development trends in nanoscience and nanotechnology and chemistry, biochemistry and materials engineering. Students systematically use and firmly establish the principle of  precise, based on empirical data, interpretation of natural phenomena and processes in their research work and in their practical activities. They learn about and learn to use principal techniques, devices and tools used in problem-solving of complex engineering tasks concerning sythesis, modification and analysis of nanomaterials. They are able to evaluate, determine the limitations of and use analytical and experimental methods to solve complex engineering problems and simple research problems.

Graduates with a degree in this field are able to become involved in the design of nanomaterials that have predefined characteristics suitable for use in many different disciplines e.g. medicine, and also in the design, testing and development of a method of nanomaterials synthesis. They are able to perform nanomaterials tests unassisted.

Graduates will be well-prepared to work for international companies and research institutes owing to, among other things, the experience they gain while completing various projects.