Master of Science Technology in Chemistry and Materials Science

Postgraduate Entry Requirements

Application Fee: €100

Academic Qualifications: Applicants for postgraduate programs typically require a minimum academic achievement of 60% or above in their bachelor's degree.

English Language Proficiency:

• English language test waiver is applicable if the Bachelor's, Master's, Licentiate, or Doctoral degree is in English language.

Standardized Test Requirements:

• Graduate Record Examinations (GRE): Overall score of 315 or higher is required.
• Graduate Management Admission Test (GMAT): Overall score of 600 or higher is required.

Aalto University in Finland offers a variety of scholarships to support international students who wish to study at one of the leading universities in Europe. These scholarships are designed to alleviate the financial burden of tuition fees and help students focus on their studies while living in Finland. 

Aalto University Tuition Fee Scholarships: Aalto University offers scholarships specifically for international students who are required to pay tuition fees. The scholarships cover either partial or full tuition fees for master’s degree students from non-EU/EEA countries. The scholarship amounts range from 50% to 100% of the tuition fee, depending on the applicant’s academic achievements. Scholarships are awarded based on the strength of the application and the applicant’s academic background.

Aalto University Scholarship for Living Expenses: While the primary focus of the scholarship program is to assist with tuition fees, some additional financial support is available for students to help cover living expenses. These scholarships are typically awarded to students who already receive a tuition fee scholarship but need further assistance to cover their living costs.

Graduates of the Master of Science (Technology) in Chemistry and Materials Science program at Aalto University are well-equipped to pursue a wide range of careers in industries that require expertise in chemistry, materials science, and engineering. The program provides a solid foundation in research and innovation, making graduates highly competitive in both national and international job markets.

Materials Scientist/Engineer: Graduates can work as materials scientists or engineers in industries such as electronics, automotive, aerospace, and energy. They apply their knowledge of material properties and performance to design and develop new materials for use in innovative products, ranging from advanced electronics to energy-efficient components.

Nanotechnology Specialist: With expertise in nanomaterials and nanotechnology, graduates can pursue careers in sectors such as biotechnology, electronics, and environmental science. They work on the development of nanoscale materials for use in a variety of applications, including drug delivery systems, sensors, and energy storage devices.

Energy Materials Engineer: The global push for renewable energy solutions creates significant demand for professionals in energy materials. Graduates can work on designing and improving materials for solar cells, batteries, fuel cells, and other energy-related technologies. They contribute to the development of sustainable energy solutions by optimizing material performance and efficiency.

Sustainable Materials Consultant: Many industries are increasingly focused on sustainability, and graduates with expertise in sustainable materials are in high demand. As a consultant, graduates can help companies adopt environmentally friendly practices by recommending materials that reduce carbon footprints, improve recycling rates, or enhance the lifespan of products.

Research and Development (R&D) Scientist: A career in R&D is ideal for graduates interested in advancing the field of materials science. Whether working in academia, private research institutions, or corporate R&D departments, these professionals work on cutting-edge projects, discovering new materials or refining existing ones to address technological and environmental challenges.

Quality Control and Process Engineer: In industries such as manufacturing, construction, and pharmaceuticals, quality control and process engineers ensure that materials meet specific standards and regulations. Graduates can work on improving production processes and ensuring the quality of materials used in final products.

Product Development Engineer: In sectors like electronics, biomedical devices, and automotive, product development engineers play a key role in designing and developing new products. They collaborate with cross-functional teams to integrate materials science into product design, ensuring that the right materials are used to achieve desired performance and durability.

Academia and Teaching: Graduates interested in teaching and research may choose to pursue a PhD in chemistry, materials science, or a related field. This opens up opportunities in universities and research institutions, where they can contribute to scientific advancements and educate the next generation of engineers and scientists.

Entrepreneurship: For graduates with an entrepreneurial mindset, there are opportunities to start businesses or work with startups focused on innovations in materials science, renewable energy, or nanotechnology. They can bring their scientific expertise to the development of new technologies and solutions in emerging industries.

Environmental Engineer: Professionals in this field focus on minimizing the environmental impact of industrial processes and materials. They design and implement solutions that promote sustainability and help businesses meet environmental regulations. This could include developing materials for pollution control or researching ways to recycle materials more efficiently.