MPhil Materials Science & Engineering
MPhil Materials Science & Engineering
MPhil Material Sciences & Engineering
Programme Overview
Aim
To train graduate students in the scientific and engineering principles of materials science while equipping them with interdisciplinary research capabilities to develop innovative materials solutions for challenges in energy, healthcare, manufacturing, infrastructure, sustainability, and industrial development.
Objectives
This programme is designed to:
Curriculum Overview
Core Courses
- Science and Engineering of Advanced Materials
- Advanced Thermodynamics of Materials
- Structure and Characterization of Materials
- Mechanical Behaviour of Materials
- Research Design and Communication
Elective Courses
- Biomaterials and Applications
- Composite Materials and Durability
- Renewable Energy Materials
Core Courses
- Computational Modelling, Simulation and AI in Materials Engineering
- Materials Selection and Engineering Design
- Electrical, Magnetic and Optical Properties of Materials
- Principles of Extractive Metallurgy
- Managing in Adversity
Elective Courses
- Metals and Alloys
- Phase Transformation and Kinetics of Materials
- Pyrometallurgy
The second year is dedicated primarily to advanced research, seminars, industry engagement, and thesis development.
Research Components
- Seminar I
- Seminar II
- MPhil Thesis
Students undertake original research under faculty supervision, supported by advanced laboratory experimentation, computational modelling, industrial collaboration, and professional development activities. Research projects are expected to address practical challenges in areas such as renewable energy, biomaterials, advanced manufacturing, sustainable infrastructure, mining, healthcare technologies, and materials innovation.
Career Prospects
Graduates of the MPhil in Materials Science and Engineering can pursue careers as:
Top Industries
- Materials Scientist
- Materials Engineer
- Research Scientist
- Metallurgical Engineer
- Product Development Engineer
- Biomaterials Engineer
- Quality and Process Engineer
- Renewable Energy Materials Specialist
- Advanced Manufacturing Engineer
- Materials Characterization Specialist
- Failure Analysis Engineer
- Research and Development Engineer
Key Pathways
Conduct cutting-edge research, contribute to scientific discovery, and pursue doctoral studies at leading universities and research institutions.
Lead materials development, product innovation, quality improvement, and process optimization initiatives across manufacturing, mining, energy, and technology sectors.
Transform research outcomes into commercially viable products, start-ups, and technology ventures focused on advanced materials and sustainable solutions.
Develop environmentally responsible materials and technologies that support renewable energy, circular economy initiatives, healthcare innovation, and infrastructure development.
Drive innovation in advanced manufacturing, smart materials, biomaterials, nanotechnology, and emerging engineering applications.
Entry Requirements
Applicants must possess at least a Second Class Lower Bachelor’s degree from a recognised institution in:
- Materials Science
- Materials Engineering
- Electrical and Electronic Engineering
- Mechanical Engineering
- Civil Engineering
- Automotive Engineering
- Industrial and Systems Engineering
- Biotechnology and Agricultural Engineering
Applicants with degrees in related science disciplines may also be considered, including:
- Physics
- Mathematics
- Biology
- Biochemistry
- Chemistry
Candidates holding Master’s degrees in related engineering or science disciplines are also eligible to apply.
- Duration: 2 Years / 4 Semesters
- Language: English
- Mode of Study: Full-Time
- Qualification: MPhil Materials Science and Engineering
- Thesis Requirement: Original Research Thesis & Viva Voce Defence
- Practical Experience: Laboratory Research & Industrial Attachment
- Career Pathways: Research • Industry • Innovation • PhD Studies
Why ACity
- Home to students from over 23 countries across africa
- Houses a digital makerspace and a technology & Entrepreneurial center for creative freedom & innovation
- A fully digitized campus with the fattest internet speed in a ghanaian university
- Experienced Faculty with industry experience. Student-to-faculty ratio 5:1
- 70% practical lessons
- Every ACitizen has the opportunity to do a work placement every vacation
Our Unique Learning Pillars
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