BSc Acoustics and Music Technology
The University of Edinburgh, a prestigious institution in the United Kingdom, offers a ...
MSc Materials Chemistry
The Kings Buildings Campus
INTAKE: September
Program Overview
The MSc in Materials Chemistry at the University of Edinburgh focuses on the design, synthesis, and application of new materials for various industrial applications. The program is ideal for students seeking to explore how chemistry can contribute to the development of novel materials, such as those used in nanotechnology, energy storage, and sustainable energy production. Students will gain in-depth knowledge of materials chemistry, including the principles behind the properties and behavior of materials at the molecular and atomic levels. By combining theory with practical laboratory experience, the program equips students with the skills needed to tackle some of the most pressing challenges in modern materials science. Graduates will be well-prepared for careers in academia, industry, and research, with the ability to lead and innovate in the field of materials chemistry.
Curriculum: The curriculum of the MSc in Materials Chemistry at the University of Edinburgh is designed to provide students with a strong foundation in both chemistry and materials science. Core modules include "Advanced Inorganic Chemistry," "Materials Chemistry," "Polymer Chemistry," and "Characterization Techniques for Materials," which cover the theoretical principles and practical techniques used in the study and manipulation of materials. In addition to these core topics, students can choose from elective modules that align with their specific interests, such as nanomaterials, energy materials, and the chemistry of sustainable materials. The program includes significant laboratory-based learning, providing students with hands-on experience in materials synthesis, characterization, and testing. The final dissertation allows students to carry out independent research in a specific area of materials chemistry, often working in collaboration with industry or research institutions.
Research Focus: The University of Edinburgh has a strong emphasis on research in the field of materials chemistry. The MSc program is designed to ensure that students engage with the latest advances in the field, benefiting from the university’s world-class research centers, such as the School of Chemistry and the Institute for Materials Chemistry. Research areas of focus include nanomaterials, biomaterials, energy storage and conversion, and sustainable materials. Students are encouraged to participate in ongoing research projects, giving them the opportunity to work alongside leading experts and contribute to innovations in materials design and application. The program is deeply integrated with the university’s strong research culture, providing students with access to cutting-edge facilities and the opportunity to apply theoretical knowledge to real-world problems.
Industry Engagement: The University of Edinburgh fosters strong industry links, ensuring that the MSc in Materials Chemistry provides students with practical exposure to the materials industry. The program collaborates with leading companies in the materials science and chemistry sectors, offering students opportunities for internships, industry placements, and collaborative research projects. Industry engagement is also facilitated through guest lectures, networking events, and career development sessions, where students can learn from professionals and experts in the field. This engagement allows students to gain real-world insights into the applications of materials chemistry, as well as the challenges and innovations shaping the industry. The university’s strong partnerships with companies and research institutions provide students with valuable opportunities for career advancement.
Global Perspective: As a globally recognized institution, the University of Edinburgh places significant emphasis on providing students with a global perspective. The MSc in Materials Chemistry is designed to prepare students for careers in a globalized scientific and technological landscape. The program attracts a diverse cohort of students from around the world, creating a rich international learning environment. Students will gain exposure to global issues in materials science, such as the need for sustainable materials, energy-efficient technologies, and the environmental impact of new materials. The university’s global network of alumni, academic collaborators, and industry partners offers students access to career opportunities and professional networks worldwide. This international focus ensures that graduates of the program are well-equipped to address the global challenges in materials chemistry and contribute to international advancements in the field.
Location
The Kings Buildings Campus
Score
IELTS: 6.5
Tuition Fee
£ 38100
Postgraduate entry requirements:
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Academic Qualifications: Prospective postgraduate applicants to the University of Edinburgh are typically required to have achieved a minimum academic qualification of approximately 60%, based on their previous academic achievements and qualifications.
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English Language Proficiency:
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IELTS (International English Language Testing System): Minimum overall score of 6.5, with at least 6.0 in each component (Listening, Reading, Speaking, Writing).
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TOEFL (Test of English as a Foreign Language): Minimum score of 100 on the internet-based test (iBT), with at least 20 in each component (Reading, Listening, Speaking, Writing).
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PTE (Pearson Test of English): Minimum overall score of 70, with at least 59 in each component (Listening, Reading, Speaking, Writing).
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Students must provide:
- academic marksheets & transcripts
- letters of recommendation
- a personal statement - SOP
- passport
- other supporting documents as required by the university.
Work experience: Some postgraduate courses may require relevant work experience in the field.
It is important to note that meeting the minimum entry requirements does not guarantee admission, as the university considers factors such as availability of places and competition for the program. Additionally, some courses may have higher entry requirements or additional selection criteria, such as interviews or portfolio submissions.
The University of Edinburgh offers a range of scholarships and funding opportunities specifically designed to support international students pursuing undergraduate, postgraduate, and research programs. These scholarships aim to promote diversity, academic excellence, and global engagement.
Global Scholarships: The University of Edinburgh offers Global Scholarships to outstanding international undergraduate students. These scholarships provide financial assistance towards tuition fees and living expenses, enabling talented students from around the world to access quality education at Edinburgh.
Edinburgh Global Undergraduate Scholarships: These scholarships are available to overseas undergraduate students applying for full-time programs at the university. The scholarships cover a portion of the tuition fees for the duration of the undergraduate program.
Edinburgh Global Research Scholarships: International postgraduate students pursuing research-based programs (Ph.D., MSc by Research) can apply for Edinburgh Global Research Scholarships. These scholarships provide full or partial funding for tuition fees and living expenses during the research program.
School-specific Scholarships: Some academic schools and departments within the university offer scholarships targeting international students in specific disciplines or programs. These scholarships may be merit-based or need-based and vary in terms of eligibility criteria and funding amounts.
Commonwealth Scholarships: The University of Edinburgh participates in various Commonwealth scholarship schemes, providing opportunities for students from Commonwealth countries to study in the UK. These scholarships are funded by the UK government and other organizations.
External Funding Sources: International students are encouraged to explore external funding sources, such as government scholarships, private organizations, and international foundations, to support their studies at the University of Edinburgh.
It is important to note that scholarship availability, criteria, and application deadlines may change from year to year.
Graduates of the MSc Materials Chemistry program at The University of Edinburgh are well-positioned to pursue diverse and rewarding career opportunities in the field of materials science and related industries. With a strong foundation in fundamental principles, practical skills, and interdisciplinary knowledge, graduates are equipped to contribute to scientific research, technological innovation, and industrial applications of advanced materials.
Materials Scientist/Researcher: Graduates may pursue careers as materials scientists or researchers in academia, research institutions, or industrial laboratories. They conduct research to develop new materials, improve existing materials, or solve materials-related problems in various industries. Their expertise in materials synthesis, characterization, and analysis enables them to contribute to scientific advancements and technological innovations in fields such as electronics, energy, healthcare, and environmental sustainability.
Materials Engineer: Materials engineers work in industries such as aerospace, automotive, electronics, and manufacturing, designing and developing materials for specific applications. Graduates can work as materials engineers, material selection specialists, or product development engineers, optimizing materials for desired properties, performance, and cost-effectiveness. Their understanding of materials science principles, engineering principles, and manufacturing processes qualifies them to work on projects ranging from lightweight alloys for aircraft to advanced ceramics for electronic devices.
Chemical Process Engineer: Graduates with a focus on materials chemistry can pursue careers as chemical process engineers in industries such as pharmaceuticals, petrochemicals, and fine chemicals. They design and optimize chemical processes for the production of materials, including synthesis routes, reaction conditions, and process parameters. Their knowledge of chemical reactions, kinetics, and thermodynamics enables them to improve process efficiency, product quality, and safety in chemical manufacturing operations.
Quality Control/Assurance Specialist: Quality control/assurance specialists ensure that materials meet quality standards and specifications in various industries, including manufacturing, construction, and healthcare. Graduates can work as quality control technicians, materials inspectors, or quality assurance managers, performing tests, analyzing data, and implementing quality management systems to ensure product integrity and compliance with regulatory requirements. Their attention to detail, analytical skills, and knowledge of materials properties make them valuable contributors to quality assurance processes.
Technical Sales Engineer: Technical sales engineers combine technical expertise with sales skills to promote and sell materials and related products to customers in industries such as chemicals, materials manufacturing, and engineering. Graduates can work as technical sales engineers, account managers, or business development specialists, providing technical support, conducting product demonstrations, and negotiating contracts with customers. Their ability to communicate complex technical information effectively and understand customer needs enables them to build relationships and drive sales in competitive markets.
Environmental Consultant: Graduates may work as environmental consultants, advising companies and government agencies on environmental issues related to materials manufacturing, waste management, and sustainability. They assess environmental impacts, develop mitigation strategies, and ensure compliance with environmental regulations and standards. Their knowledge of materials chemistry, environmental science, and regulatory requirements qualifies them to address environmental challenges and promote sustainable practices in materials-related industries.
