Masters Degree Programme in Public Mental Health
The Master's Degree Programme in Public Mental Health at the Unive...
Masters Degree Programme in Physical and Chemical Sciences: Materials Chemistry
Turku
INTAKE: August
Program Overview
The Master's Degree Programme in Physical and Chemical Sciences: Materials Chemistry at the University of Turku is designed for students who want to gain advanced knowledge in the chemistry of materials and their applications in technology and industry. This program prepares students to become experts in the synthesis, characterization, and processing of materials used in various high-tech industries, such as electronics, energy storage, and nanotechnology. Students will gain a strong foundation in both the theoretical and practical aspects of materials chemistry, allowing them to contribute to the development of innovative materials for real-world applications. The program also offers opportunities for students to engage in cutting-edge research that addresses global challenges related to sustainable energy, materials design, and environmental impact.
Curriculum: The Master's Degree Programme in Physical and Chemical Sciences: Materials Chemistry provides a comprehensive and interdisciplinary curriculum that covers core areas in chemistry, physics, and material science. In the first year, students undertake advanced courses in materials chemistry, focusing on the synthesis and characterization of materials, including polymers, nanomaterials, and semiconductors. The curriculum integrates theoretical knowledge with practical laboratory work, allowing students to gain hands-on experience with state-of-the-art instrumentation and techniques. Topics covered include crystallography, spectroscopy, surface chemistry, and the behavior of materials under different conditions. In the second year, students specialize in one of several fields, such as energy materials, green chemistry, or nanomaterials. The program culminates in a master's thesis, where students conduct original research, often in collaboration with industry partners or academic institutions. This practical experience enables students to apply their knowledge to real-world challenges in materials design and development.
Research Focus: The research focus of the Master's Degree Programme in Physical and Chemical Sciences: Materials Chemistry at the University of Turku is driven by the latest advancements in materials science and its applications in sustainable technology and innovation. Key areas of research include the development of materials for energy storage and conversion, such as batteries and fuel cells, as well as advanced nanomaterials for electronics and sensors. Students are also encouraged to explore topics in green chemistry, focusing on the design of environmentally friendly materials with minimal ecological impact. Research in materials chemistry at the University of Turku is highly interdisciplinary, combining insights from physics, chemistry, and engineering to address global challenges like energy efficiency, climate change, and sustainable manufacturing processes. Students have the opportunity to engage in cutting-edge projects and collaborate with renowned experts in the field, contributing to innovations that will shape the future of materials science.
Industry Engagement: The Master's Degree Programme in Physical and Chemical Sciences: Materials Chemistry has strong ties with industry, providing students with opportunities to collaborate on real-world projects and internships. The University of Turku maintains partnerships with leading companies in materials science, energy, and high-tech industries, ensuring that students gain practical insights into the challenges and trends shaping the materials sector. Industry engagement includes opportunities for students to participate in research and development projects, internships, and workshops, where they can apply their academic knowledge to practical problems. These collaborations offer valuable networking opportunities and help students build relationships with professionals in the field, which is crucial for launching a successful career in materials chemistry.
Global Perspective: The Master's Degree Programme in Physical and Chemical Sciences: Materials Chemistry at the University of Turku emphasizes a global perspective, preparing students to work in an increasingly interconnected and international scientific community. The program encourages international collaboration and provides opportunities for students to engage in exchange programs with partner universities and research institutions worldwide. Students also have access to international conferences, seminars, and workshops, where they can present their research and network with experts from around the globe. The University of Turku’s commitment to fostering a global outlook ensures that graduates are equipped to tackle complex global challenges, such as climate change, sustainable energy, and resource conservation, through innovative materials solutions.
Location
Turku
Score
Tuition Fee
€ 12000
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.
The University of Turku offers various scholarships for international students, aimed at supporting students with the cost of their tuition fees and ensuring they have the opportunity to pursue their studies in Finland without financial concerns. These scholarships are designed to attract talented students from across the globe, particularly for Master’s degree programs, as the university has a strong international student body.
University of Turku Scholarship Scheme: The University of Turku offers a merit-based scholarship scheme for international students applying to Master’s degree programs. These scholarships cover part or all of the tuition fees for students from non-EU/EEA countries. The scholarships are competitive and are awarded based on the academic excellence and merits of the applicants. Students who are accepted to a degree program at the university are automatically considered for this scholarship.
External Scholarships: The university provides information and guidance on various external scholarships that are available to international students, including scholarships offered by Finnish government agencies and private foundations.
Erasmus+ Grants: Students who are part of the Erasmus+ exchange program may be eligible for grants to support their studies in Finland.
Country-Specific Scholarships: Some countries have specific scholarship agreements with Finland, and students from these countries may apply for additional financial support.
Graduates of the Master's Degree Programme in Physical and Chemical Sciences: Materials Chemistry from the University of Turku are equipped with specialized knowledge in the chemistry of materials, preparing them for a wide range of careers in the rapidly evolving materials science sector. Their expertise in material synthesis, characterization, and application makes them valuable assets to industries ranging from energy to high-tech manufacturing.
Materials Scientist: Materials scientists study the properties and structures of materials to develop new substances with specific properties for industrial applications. Graduates can work in a variety of sectors, including electronics, automotive, and aerospace, focusing on the development of new materials for advanced technologies.
Chemist in Industry: Graduates can work as industrial chemists, applying their knowledge of materials chemistry to design and develop new products or improve existing ones. This may involve working on the synthesis of materials for various applications such as coatings, catalysts, and composites used in manufacturing processes.
Nanomaterials Specialist: The program's focus on nanomaterials provides graduates with the opportunity to work in the burgeoning field of nanotechnology. Nanomaterials specialists research and develop materials at the nanoscale, which have applications in electronics, energy storage, and medicine, among other areas.
Energy Materials Engineer: Graduates can become energy materials engineers, focusing on developing advanced materials for energy storage and conversion technologies, such as batteries, fuel cells, and solar cells. This role is critical in the development of sustainable energy solutions and addressing global energy challenges.
Green Chemistry Specialist: With a focus on environmentally friendly materials, graduates can work as green chemistry specialists, researching and developing sustainable materials and processes. They focus on minimizing the environmental impact of industrial production and the use of renewable resources in material manufacturing.
Product Development Engineer: Graduates can pursue careers in product development, working with companies to develop innovative materials for a wide range of products, from electronics to consumer goods. They apply their expertise to create materials that meet performance, cost, and environmental criteria.
Research and Development (R&D) Specialist: Many graduates find opportunities in research and development, working in both academia and industry. R&D specialists focus on exploring new materials, advancing material properties, and developing cutting-edge technologies that drive innovation across a variety of sectors.
Quality Control Analyst: In this role, graduates ensure that materials meet industry standards for safety, performance, and sustainability. They work in manufacturing facilities to conduct tests and quality assessments, ensuring that materials used in production processes are safe and meet regulatory requirements.
Environmental Consultant: Graduates can work as environmental consultants, advising companies and organizations on sustainable materials and practices. This involves assessing the environmental impact of materials and processes and recommending solutions to reduce ecological footprints in industrial operations.
Academic Researcher or Professor: Graduates interested in academia can pursue Ph.D. programs in materials chemistry and related fields. They can then work as researchers or professors, conducting cutting-edge research, publishing scientific papers, and teaching the next generation of scientists in universities and research institutions.
Process Engineer: In this role, graduates can work as process engineers, optimizing the manufacturing processes of new materials. They apply their chemical engineering knowledge to improve efficiency, reduce costs, and ensure that material production meets safety and quality standards.
Entrepreneur in Materials Science: Armed with specialized knowledge in materials chemistry, graduates may decide to start their own companies focused on material innovation. These entrepreneurs could focus on developing and commercializing new materials or technologies, contributing to advancements in industries such as electronics, energy, or healthcare.
Regulatory Affairs Specialist: Graduates can work as regulatory affairs specialists, ensuring that new materials meet the necessary regulatory requirements for safety, quality, and environmental impact. This role is crucial in industries such as pharmaceuticals, where materials used in drug formulations must meet strict guidelines.
Consultant in Materials Technology: Graduates with a background in materials chemistry can work as consultants, offering expertise to companies in various industries looking to adopt new materials or improve their existing material technologies. This role requires a deep understanding of market trends and technological advancements.
