17 - 19 February 2025 InterContinental London - The O2. Who Attends Energy … Contact online >>
17 - 19 February 2025 InterContinental London - The O2. Who Attends Energy
Energy Storage Summit sponsors connect with key decision-makers and gain
InterContinental London - The O2 1 Waterview Drive London SE10 0TW. By
Resources - Energy Storage Summit 2025
17 - 19 February 2025 InterContinental London - The O2. Energy Storage
London, Bloomsbury
If you require details of the previous year's programme, Advanced Materials Science (Energy Storage) MSc (2024), click here
With global challenges in climate, environment, healthcare and economy demand, there is increasing need for scientific experts and entrepreneurs who can develop novel materials with advanced properties - addressing critical issues from energy to healthcare - and take scientific discoveries to the commercial world. This degree combines frontline research-based teaching from across UCL to train the next generation of materials scientists for sustainable energy and energy storage.
A minimum of a second-class Bachelor''s degree from a UK university or an overseas qualification of an equivalent standard.
UCL Pre-Master''s and Pre-sessional English courses are for international students who are aiming to study for a postgraduate degree at UCL. The courses will develop your academic English and academic skills required to succeed at postgraduate level.
Further information can be found on our English language requirements page.
If you are intending to apply for a time-limited visa to complete your UCL studies (e.g., Student visa, Skilled worker visa, PBS dependant visa etc.) you may be required to obtain ATAS clearance. This will be confirmed to you if you obtain an offer of a place. Please note that ATAS processing times can take up to six months, so we recommend you consider these timelines when submitting your application to UCL.
Country-specific information, including details of when UCL representatives are visiting your part of the world, can be obtained from the International Students website.
International applicants can find out the equivalent qualification for their country by selecting from the list below. Please note that the equivalency will correspond to the broad UK degree classification stated on this page (e.g. upper second-class). Where a specific overall percentage is required in the UK qualification, the international equivalency will be higher than that stated below. Please contact Graduate Admissions should you require further advice.
The programme aims to equip students with advanced, comprehensive knowledge of materials science and related state-of-the-art technologies, an understanding of the structure, properties and applications of materials, scientific research skills, and the insight and capability to be an entrepreneur in the field. In addition, students will engage in a literature project and a six-month cutting-edge research project.
This programme is designed for those with a background in physics, chemistry, polymers, materials science and engineering or biotechnology and prepares students for a career discovering the advanced materials for energy conversion and storage that will shape the future of our world.
Advanced Materials Science (Energy Storage) MSc relates scientific theories to research and applications of advanced materials, encourages innovation and creative thinking, and contextualises scientific innovation within the global market and entrepreneurship.
The programme aims to deliver innovative teaching; from the group design projects, where students are challenged to design the next generation energy materials, to the module Materials Innovation for Renewable Energy, where students learn how to apply through-life engineering principles to develop competitive and sustainable renewable energy.
Students on this interdisciplinary programme benefit from UCL''s emphasis on research-based learning and teaching and research input from departments across UCL in mathematical and physical sciences, and in engineering.
Graduates from this programme are prepared to enter a variety of fields such as aerospace, biomedical, engineering and other multidisciplinary industrials, with students being offered roles at companies including Shell, Johnson Matthey, Rolls-Royce, Merck, Oxford Instruments, Huawei, Bytedance, Procter & Gamble, Coca-Cola.
This programme has also provided students with an excellent foundation for the pursuit of further academic study such as another postgraduate degree or doctoral research. Graduates have gone on to be awarded full PhD studentships in Purdue University in the USA, Universities of Oxford, Queen Mary, Nottingham, Bath, St Andrews, Imperial College London, and UCL in the UK, as well as other top universities in Australia and Hong Kong.
You''ll be equipped with the comprehensive knowledge and research skills for a future career as a materials scientist or engineer in academia or industry, or as an entrepreneur.
Staff at the Institute for Materials Discovery have extensive professional networks and often organize research seminar talks given by internal and external academic and industrial speakers worldwide. Students are strongly encouraged to participate in these scientific seminars. In addition, students are also encouraged to organize their own academic, social and alumni events with staff supports to enhance their sense of belonging.
The programme will introduce you to the area of advanced material science through a blended mixture of lectures, case study workshops, individual and group activities, and lab practices. You will be expected to supplement material provided by lecturers with your own independent learning and research, by reading around the subject and by engaging with wider activities in advanced materials science, for example by attending seminars.
The programme''s compulsory curriculum is assessed by a combination of different methods that typically include individual coursework, a group project and/or a written examination, individual research projects with associated presentations, dissertation reports and viva voce. Students are also given time to revise and work through their assessed work with opportunities for individual and group feedback.Assessment methods vary according to modules and are designed to enable students to demonstrate learning over time.
Each taught module is normally lectured for 30 hours with around 20 hours tutorials and/or tutorial-lead practices. The student is expected to spend around 100 hours on self-directed study for each taught module.
For full-time students, typical contact hours are around 12 hours per week. Outside of lectures, seminars, workshops and tutorials, full-time students typically study the equivalent of a full-time job, using their remaining time for self-directed study and completing coursework assignments.
In terms one and two full-time students can typically expect between 10 and 12 contact hours per teaching week through a mixture of lectures, seminars, workshops, crits and tutorials. In term three and the summer period students will be completing their own research project, keeping regular contact with their supervisors.
In Term 1 you will study compulsorymodules relating to the Microstructural Control in Advanced Materials, Advanced Materials Processing and Manufacturing, Advanced EnergyStorage, and you will be exposed to the concepts of research design and research methods, thus gaining the necessary knowledge to develop your research project during the year.
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