MPhil in Sustainable Energy and Environment
The Hong Kong University of Science and Technology
Key Information
Campus location
Hong Kong, Hong Kong
Languages
English
Study format
On-Campus
Duration
2 years
Pace
Full time
Tuition fees
HKD 42,100 / per year **
Application deadline
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Earliest start date
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** per year
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Introduction
Innovative sustainable energy technologies with minimal environmental impact will act as a catalyst to trigger breakthrough development in many fields, ranging from greener aviation to safer electric vehicles, to longer endurance of 3C products. Studies in sustainable energy technologies focus on cutting-edge research in the related cross-disciplines, including sustainable energy harvesting and conversion technologies; high-performance energy storage systems and electric vehicles; smart energy distribution, intelligent energy systems, and energy-saving strategies; hydrogen and electrolyzers; bioenergy and bio-inspired energy systems, and lifecycle analysis and recovery of the energy system.
The Master of Philosophy (MPhil) Program in Sustainable Energy and Environment aims to provide a solid education and rigorous research training in sustainable energy technologies, as well as prototyping and transferring original research results on our campuses as a living lab and to industrial collaborators. The programs will also offer dynamic pedagogical training to equip students with competitive and transferrable skills in sustainable energy technologies that serve regional and national industries with a global vision.
An MPhil graduate is expected to demonstrate domain knowledge and to synthesize and create new technology or method, making a contribution to the field.
Admissions
Program Outcome
Learning outcomes
On successful completion of the MPhil program, graduates will be able to:
- Identify scientific and engineering significances in various sustainable energy technologies and their environmental impact;
- Apply a range of qualitative and quantitative research methods for conducting basic or applied research or development in sustainable energy technologies;
- Transfer applied research insights and innovative ideas effectively and develop them into new domain knowledge or engineering prototypes; and
- Demonstrate independent and critical thinking, and develop an innovative spirit and a global vision in the field.