Nanomaterials are chemical substances whose particles are extremely small, giving them unique properties that differ from those of conventional materials. Nanomaterials chemistry allows us to study their creation, properties, and applications. You will deepen your theoretical knowledge and learn to synthesize and study nanostructures. In the laboratories, you will acquire practical skills in creating and analyzing nanomaterials, applying modern research methods, critically evaluating data, and solving new problems. This will help you prepare for a career in science, innovation, and industry..
Graduates of this programme will have the capability to:
Investigate and apply knowledge in practice. You will describe chemical substances and nanostructures, apply principles of thermodynamics, quantum chemistry, kinetics, and physics, and conduct experiments.Proficiently apply methods for data collection, preparation, and analysis throughout the product lifecycle.
Analyze and interpret data. You will select appropriate research and instrumental methods, perform measurements, process data, and formulate well-grounded conclusions.
Solve problems creativSolve problems creatively. You will address chemical and nanochemistry-related challenges, collaborate in teams, and develop innovative solutions to these challenges.
Develop responsibly and share knowledge. You will work safely in the laboratory, communicate in English, and plan your professional growth.
The average grades in chemistry and mathematics must be at least 60% of the maximum possible grade.
Candidates who meet the established criteria are invited to a motivational interview. The interview is organised to learn more about the applicant’s motivation for choosing the programme, to assess their knowledge of chemistry, and to evaluate their English language proficiency. If the interview result is negative, the candidate will not be admitted to the study programme.
Citizens of the People’s Republic of Bangladesh, Nepal, and the Islamic Republic of Pakistan are required to pass the OMPT-G exam with a score of at least 60%.
N.B. for non-EU/EFTA applicants: The time gap since completion of secondary education should not exceed five years.
Dive into the exciting world of nanomaterials – tiny structures with huge potential!
Learn how to create advanced materials used in medicine, electronics, energy, and sustainable technologies.
Study with expert scientists, gain hands-on experience in modern labs, and explore the latest research.
Participate in international exchange programs to study in multiple countries and broaden your horizons.
This program equips you with the skills, knowledge, and opportunities to shape the future through cutting-edge chemistry.
What comes after?
Chemistry of nanomaterials studies opens the door to a world of innovation, where new materials and technologies are continually being developed. After graduation, you will be prepared to work in high-tech companies and research centres.
Nanomaterials are widely used in medicine, electronics, energy, and environmental solutions. Your career may involve working with advanced polymers and composites, nanoparticles for drug delivery, sustainable energy, or environmental projects, as well as quality control and research activities.
If you wish to pursue an academic path, you can continue your studies at the master’s or doctoral level and contribute to the development of future technologies in universities, research institutes, or corporate R&D departments.
The knowledge and competencies you gain are also valuable in the public sector, including innovation agencies, ministries, technology parks, and educational institutions.
