School of Engineering and Materials Science Postgraduate Prospectus

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Queen Mary, University of London School of Engineering and Materials Science Postgraduate Prospectus

www.sems.qmul.ac.uk

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Contents

Welcome

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Why choose Queen Mary, University of London?

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The School of Engineering and Materials Science

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Postgraduate taught programmes

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Research groups at the School of Engineering and Materials Science

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Further Information

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Welcome to the School of Engineering and Materials Science

Dear Student, Whether you are considering studying on one of our postgraduate taught masters programmes or are looking to study a PhD, we hope that this brochure will give you an insight into the wide range of learning and research opportunities that we provide. The School of Engineering and Materials Science at Queen Mary was formed in 2007 by combining the previously existing Department of Materials and Department of Engineering. As a School we are deeply committed to undertaking ground-breaking research, which feeds directly into our teaching. This means that you will be able to learn about the very latest developments in your field. For example, Nanoforce Technology Ltd provides access to a broad range of unique world-class processing facilities. It is a Queen Mary-owned subsidiary that is devoted to nanomaterials research with the purpose of exploitation by relevant industrial partners. Our postgraduate degrees are designed to equip you with the knowledge and skills that you will need to pursue a career in industry or research. With specialties in a range of engineering and materials fields you will be well placed to follow in the footsteps of previous graduates who have pursued careers at organisations such as Finisbury Instruments, Corin, Depuy, Ministry of Defence, BAE Systems and Astrium. Our graduates have also gone on to enjoy positions at universities throughout the UK and abroad as teachers and researchers. We hope to welcome you to the School next year to begin the exciting next step in your engineering or materials education. Warm regards,

Professor David Lee Head of School

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The School of Engineering and Materials Science

Why choose Queen Mary, University of London?

Queen Mary is one of the world’s leading universities, with first-class academics, inspirational teaching, and a great track record for student employability. We are committed to producing the highest quality of research and recruit the best academics in their disciplines from around the world. Following the government’s most recent Research Assessment Exercise (RAE 2008), which grades academic research, we were ranked 11th in the UK by the Guardian.

In recognition of our excellence in research and teaching, we joined the Russell Group of leading UK universities in 2012. The Group, which includes other top universities such as Oxford, Cambridge and UCL, attracts the brightest students and almost two thirds of research funding in the UK. Graduates from Russell Group universities are especially valued by employers.

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The School of Engineering and Materials Science

Queen Mary has around 17,000 students from more than 125 countries studying across the humanities and social sciences; science and engineering; and medicine and dentistry. This creates a truly vibrant, intellectual community. We are based in a creative and culturally diverse area of east London, and are the only London university able to offer a completely integrated residential campus, with a 2,000-bed award-winning student village at our Mile End home.

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Our Mile End campus is next to Regent’s Canal and the open green spaces of Mile End Park, and is an attractive environment in which to live and study. We have invested over £200 million over the past fifteen years so that our students enjoy first-class facilities. As well as comfortable canal-side accommodation, the Mile End campus is home to outstanding academic facilities, a bookshop, gym and a range of cafÊs, bars and restaurants.

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The School of Engineering and Materials Science

The School of Engineering and Materials Science

Facilities You will have access to excellent facilities within the School. These include: • Wind tunnel facilities for experimental aerodynamics research • Heat transfer and condensation rigs, large flume, six IC-engine test beds and three combustion rigs to support experimental thermofluids engineering research • Two new laboratories to examine the potential of electrospray technology to manipulate individual biomolecules to produce scaffold structures for tissue engineering • A dedicated gait lab to support computational and sport mechanics, and sports and rehabilitation engineering • A cell and tissue engineering suite housing dedicated cell culture laboratories, a molecular biology unit with quantitative rtPCR capability and a radioisotope labelling facility • New laboratories to support Stem Cell Bioengineering, including the culture, manipulation and analysis of cells • A high-tech materials imaging suite, the Nanovision Centre which includes SEM, TEM and AFM facilities • Brand new materials characterisation labs • Mechanical testing equipment, including analytical and computational facilities and image analysis, materials processing and fabrication, heat treatment equipment and dialectric and electrical characterisation.

Internationally recognised research The School’s research activity was very highly rated in the government’s most recent Research Assessment Exercise (RAE 2008). Our materials research was assessed as a top five activity in terms of research power (quality multiplied by volume) of any materials activity in any university across the UK. The RAE also showed that 90 per cent of our research activity is internationally recognised, and that 55 per cent is internationally excellent.

Taught programmes Our taught postgraduate programmes provide you with a fantastic opportunity to engage with this cutting-edge research. The skills that you will develop and our extensive industrial connections mean that you will be well placed to pursue stimulating and wellpaid careers. Assessment All taught postgraduate MSc programmes are assessed by coursework and formal examinations. Students achieving more than a 50 per cent average on the taught modules in terms 1 and 2 will progress onto an MSc dissertation project and viva (oral examination) that is conducted under close supervision through the summer term.

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The School of Engineering and Materials Science

Career links The School of Engineering and Materials Science maintains strong links with many industrial partners both in terms of research collaboration and funding, and through the Industrial Advisory Board, which currently includes around 150 representatives from companies involved in the engineering and materials sector. Accreditation The School is proud to have the following programmes accredited by the Institute of Materials, Minerals and Mining (IOM3): • MRes Materials Research • MSc Materials Research • MSc Biomaterials • MSc Dental Materials IOM3 accreditation contributes to the professional portfolio, which enhances your career prospects and can form the major component of an application for Chartered Engineer status. In addition, the School has links with Student Employment Services Limited (SES) who provide additional support in arranging postgraduate placements and work experience.

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Postgraduates are also encouraged to join the various research institutes, which include: • Institute of Materials, Mining and Minerals (IOM3) • Institute of Mechanical Engineering (IMechE) • Institute of Physics and Engineering in Medicine (IPEM) • Royal Aeronautical Society (RAeS) Graduate destinations The strong industrial links fostered by the School, combined with the skills and training acquired during your postgraduate studies are highly valued by employers in all sectors of industry and academia. Our graduates have found jobs in a wide range of interesting careers both in the UK and worldwide, including research, development and consultancy positions within companies such as Airbus, Corus, Rolls Royce, Dow Chemicals, DePuy, Avon, Bridgestone, SuperAguri F1, DSTL (Defense S T L) and many more. Many others have continued their studies to PhD level, either at Queen Mary or at other prestigious universities around the world.

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Postgraduate taught programmes Aerospace Engineering MSc (H4S1)

Overview Aerospace engineering has come a long way since the Wright brothers first succeeded in powered flight in 1903. The subject has evolved and diversified, taking in everything from aerodynamics to flight control, and from space engineering to simulation and design. The modern aerospace engineer needs to be able to operate and develop advanced devices based on complex theoretical and computational models. While it is important to develop specialised skills, they must also have a broad understanding of advanced topics. The aim of this programme is to enable you to develop this broad understanding, while also encouraging specialisation through a research project and option modules. Topics covered include: the mechanics of continua (you will study fluid dynamics and structural mechanics in depth), research methods and experimental techniques. Six specialised option modules will enable you to gain proficiency in highly advanced fields, such as flight control and simulation, aeroelasticity, computational fluid dynamics, advanced aerodynamics, combustion, computational mechanics and vehicular crashworthiness. Entry requirements: An undergraduate degree (minimum second class honours degree at 55 per cent or equivalent) in aerospace or mechanical engineering or a related discipline.

Evaluate and test your computational modifications on our aerospace simulators.

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Postgraduate taught programmes Biomedical Engineering MSc (HBS3)

Overview Biomedical Engineering is a new and rapidly developing field in which the principles of science and engineering are applied to biological and medical problems. It has applications in a variety of areas from the design, development and operation of complex medical devices used in diagnosis and treatment, to the development of software products and theoretical models that enhance the understanding of complex issues in the biomedical area. This programme aims to produce specialists with advanced skills in computational modelling, numerical techniques and an in-depth understanding in engineering approaches to biological problems. You will acquire extensive knowledge in the areas of computational solid and fluid mechanics with a focus on biomedical applications such as biomechanics, bio-fluids, and tissue engineering. You will also develop an in-depth understanding of the underlying theoretical issues and the technological developments in biomedicine. On completion of the programme you will be able to contribute to the development of new computational and technology products for the biomedical industries. Entry requirements: An undergraduate degree (minimum second class honours degree at 55 per cent or equivalent) in engineering or the physical sciences.

Our advanced facilities in the Cell and Tissue Engineering Labs give you the means to conduct advanced research for your dissertation.

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Postgraduate taught programmes Computer Aided Engineering MSc (H1S2)

Computer Aided Engineering (CAE) is one of the fastest-growing fields within engineering and underpins design and analysis in all engineering disciplines. Virtual prototyping – based on the numerical analysis of structures, fluids, acoustics and many other factors – has become absolutely central to the industrial design and analysis process. The skills and knowledge you will develop on this MSc programme will enhance your prospects for employment in competitive industrial companies and research institutions. This programme aims to provide you with a solid background in computational and numerical methods, as well as modern programming languages such as C++. You will be introduced to a wide range of aspects of computation in engineering, both in structures and fluids, including numerical optimisation. You will chose to specialise in aeronautical, mechanical, biomedical or sustainable energy engineering and will follow advanced modules in that area. You will then apply your numerical analysis skills to engineering problems in your specialisation in your MSc project. Recent research projects have drawn on the School’s strong links with companies such as Airbus, Alstom, Rolls Royce, TWI and VW. Entry requirements An undergraduate degree (minimum second class honours at 55 per cent or equivalent) in engineering or physics. We will also consider those with degrees in mathematics or computer science, provided that you have taken modules in engineering basics such as fluid dynamics and continuum mechanics.

staff profile

Overview

Dr Jens-Dominik Mueller Senior Lecturer in Engineering Programme Director, Computer Aided Engineering Why are you passionate about teaching your subject? I like working in fluid dynamics. As Heraklit said over 2,500 years ago, “everything flows”. There is endless fascination in how streamlines wrap smoothly around a fish, or a wing, or a red blood cell. And then, at a whim, streamlines decide to part company with that surface and separate, giving rise to the intricate swirls of turbulent flow. Who inspires you? In my research I am most inspired by the early pioneers of computer simulation. In a time when the most powerful computers worked with punch-cards and had computing power less than an old Nokia, they had already come up with the main ideas that are still used today.

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The School of Engineering and Materials Science

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Postgraduate taught programmes Medical Electronics and Physics MSc full-time (F3Q7) / part-time (F3Q8)

Overview This vocation-orientated programme is accredited by the Institute of Physics and Electronics in Medicine. Graduates are able to pursue careers in the NHS, private research laboratories and to continue onto PhD study. The programme covers the design of modern medical electronic equipment, monitoring patients, life support and surgical equipment and appropriate clinical measurement techniques for recording the variety of signals produced by the human body. The electrical safety requirements for medical equipment connected to patients are stringent and these aspects of design are emphasised. Attention is also paid to the processing of biomedical signals by computer and other means, in order to maximise the useful information gathered to help clinicians when attempting diagnosis. Our close links with Queen Mary’s worldrenowned Barts and The London School of Medicine and Dentistry and the Barts and The London Hospitals NHS Trust is of real benefit for practical demonstrations. We also have a close working relationship with the Biomedical Engineering and Materials research group at Queen Mary, which greatly enhances your learning experience giving your studies depth and perspective. Graduates of the course will be able to make valuable contributions to the advancement of medical science and technology that genuinely benefits patients.

Students on the Medical Electronics and Physics MSc examine advancements and new techniques used in hospitals to focus their own research.

Entry requirements: An undergraduate degree (minimum second class honours degree at 55 per cent or equivalent) in physics, electronics or engineering. Other qualifications with relevant work experience may be considered. No previous knowledge of human anatomy or physiology is required.

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Postgraduate taught programmes Sustainable Energy Systems MSc (H2S1)

Overview The large projected increases in global population and energy demand led by developing and emerging economies, underscore the need for new global supplies of affordable sustainable energy. The current acuteness of the issue results from the confluence of concerns about population growth, energy supply and demand, security, and the effects of energy production and use on the environment. Energy derived from renewable and clean sources holds the promise of addressing these concerns. As a result there is an ever-increasing demand for specialists in sustainable energy systems. This demand is fuelled by the tightening of environmental regulations, the emerging recruitment needs of manufacturers and energy-supply companies, as well as increased public awareness of the energy problem. The programme aims to produce specialists with unique expertise in the fundamentals of energy and the environment, and the application of sustainable energy systems for the benefit of humankind. Specialist modules include Advanced Environmental Engineering, Renewable Energy Engineering and Materials, Advanced Gas Turbines, and Aerodynamics.

Wind turbines are one of the many new developments in the field of sustainable energy.

Entry requirements: An undergraduate degree (minimum second class honours at 55 per cent or equivalent) in engineering, the physical sciences or equivalent.

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Postgraduate taught programmes Polymer Science and Technology MSc (J5U7)

Overview This new programme focuses on polymers and polymer composites and concludes with an independent research project. Modules will prepare you for independent research while also increasing your knowledge of the structure and behaviours of different polymer materials. You will also learn how to decide what materials are most suitable for the design of different products, depending on the environmental impact that results. We place emphasis on the various different types of materials processes that are currently used as well as the latest innovative techniques such as Thermogravometric Analysis (TGA) and Raman Spectroscopy. We offer exceptional facilities for polymer materials research, such as a brand new Materials Characterisation Lab with a rheometer as well as other cutting-edge equipment and have established research strength in polymers and composites. Entry requirements: An undergraduate degree (minimum second glass honours at 55 per cent or equivalent) in materials science or a related subject.

An image of carbon nanotubes; one of many polymers studied in the School of Engineering and Materials Science.

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Postgraduate taught programmes Biomaterials MSc (J5S5)

Overview Queen Mary has led the field in biomaterials teaching and research for over 20 years. This established programme will equip you with both theoretical and applied knowledge, and will provide an insight into areas of material science, biocompatibility, ethical issues, nanomaterials, and biological systems. This degree is aimed at people with conventional materials expertise who wish to move into the biomaterials field, and will provide a high level of understanding of the principles and applications of biomaterials and medical devices. Biomaterials involves tailor making of materials for medical applications. Examples of these applications include artificial skin, vascular and cardiovascular implants and devices, bone graft substitutes, new prosthetic devices, dental materials, biosensors and controlled drug delivery. New absorbable biomaterials developed around the turn of the 21st century have meant applications in this field have rapidly expanded. Biomaterials scientists are now able to produce scaffolds for the synthesis of tissue in the lab, and implants to facilitate the regeneration of tissue in the body (known as regenerative medicine). These new materials have had an enormous impact on the repair and replacement of injured and diseased parts of the body and the field continues to expand. In fact, the only limits are the imagination of the biomedical material scientist and identifying appropriate applications with clinicians.

A digitally enhanced image of Nanocapsules that are being researched as a new method of drug delivery.

Entry requirements: An undergraduate degree (minimum second class honours degree at 55 per cent or equivalent) in Materials Science, Engineering or a related discipline.

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Postgraduate taught programmes Dental Materials MSc (J5S9)

student profile

Overview This programme is taught jointly by our Schools of Medicine and Dentistry and Engineering and Materials Science, and develops an advanced knowledge of the principles underlying the mechanical, physical and chemical properties of dental materials. The programme is aimed at dental surgeons, materials scientists and engineers wishing to work in the dental support industries, and the materials health sector generally. On completion, you will have an in-depth knowledge of the latest dental materials and be able to justify selection criteria and manipulation instructions for all classes of materials relevant to dental practice. You will study the structural properties of materials at micro and macro levels, with a special emphasis placed on structure-property correlations in the context of both clinical and non-clinical applications. The theoretical modules are reinforced by practical research, in which you can draw on the resources of both schools, and develop your own research interests. Entry requirements: An undergraduate degree (upper second class honours degree or equivalent) in materials science, or dentistry.

Olivia Osiro MSc Dental Materials Previously: University of Nairobi What were you doing before QM? I was a tutorial fellow in the department of conservative and prosthetic dentistry at University of Nairobi, teaching Dental Materials to undergraduate dental students. How has QM supported you? They picked me up from the airport. As this was my first time in the UK, and I knew nobody here, it was nice to have somebody waiting to receive me. I have also benefited from the in-sessional courses to help improve my writing, reading and presentation skills. What do you enjoy about the programme? I enjoy the way the modules all tie together with each describing different aspects of the course. I also like the fact that it is a one-year course, and though the workload is heavy, there are no shortcuts taken and it is a complete course.

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Postgraduate taught programmes Materials Research MSc (J5R3)

This long-running programme provides a rigorous training in both theoretical and applied research for those who wish to pursue a career as a professional materials scientist. Technological advances, as well as methodological issues, have contributed to the transformation of materials and their functions. As manufacturing supply chains become global, companies are forming new strategic alliances and partnerships – materials research is of great use here, as competitive advantages can be achieved through the development of innovative approaches to the design, development and manufacture of novel materials. This MSc will provide an insight into areas of manufacturing, planning and control systems, knowledge-based systems, and measurement and manufacturing systems. The programme is interdisciplinary in nature and involves a combination of theoretical and practical approaches. A substantial component of the programme is the research project. This is undertaken alongside taught modules throughout the academic year, and will be based within one of the materials research groups within the School. The research project may be focused in the fields of ceramics, polymers, composites, elastomers, functional materials or manufacturing technologies. Entry requirements Undergraduate degree (minimum second class honours at 55 per cent or equivalent) in materials science, engineering or a related discipline.

student profile

Overview

Adeel Ahmed Materials Research MSc Previous degree: BSc in Chemistry from Kingston University Are you happy with the standard of your teaching/supervision? Queen Mary lecturers are always ready to help you, whether it is providing general assistance in understanding a material or your future career options. Most of the lecturers here come from industrial backgrounds, so they really understand the field and have excellent contacts. Many lecturers reference their published work, linking their research to the syllabus wherever possible. What do you enjoy most about the course? The most enjoyable features of the course are the many computer programmes and specialist facilities available to you. Whether it is for research, project work or class work, you always get an opportunity to develop your skills through training on the many simulation programmes.

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The School of Engineering and Materials Science

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Postgraduate taught programmes Materials Research MRes (J5R1)

Overview This programme is designed following the guidelines provided by the Engineering and Physical Sciences Research Council (EPSRC). It provides graduates with the foundations for a research career in industry, the service sector, the public sector or academia, and serves both as a qualification for immediate entry into a research career or as an enhanced route to a PhD through further research. The taught modules within this programme are designed to provide high-quality training in the methods and practice of research, as well as to provide complementary transferable skills through the option modules, which focus on business and management-related topics. A substantial component of the MRes Materials Research programme is the research project. This is undertaken alongside taught modules throughout the academic year, and will be based within one of the materials research groups within the School. The MRes Materials Research may be focused in the fields of ceramics, polymers, composites, elastomers, functional materials or manufacturing technologies. Assessment Assessment methods include coursework and formal examinations. Many modules will include continuous assessment. The MSc Research Project will be conducted under close supervision throughout the academic year, and is evaluated by thesis, presentation and an oral examination at the end of the summer term.

An image taken from the Nanovision lab that examines the structures of ceramics, rubbers and a variety of composite materials.

Entry requirements Undergraduate degree (minimum second class honours or equivalent) in materials science.

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The School of Engineering and Materials Science

Research groups at the School of Engineering and Materials Science

We welcome postgraduate students and visiting research fellows to undertake research in our three key research groups.

Research is co-ordinated within the following research groups: • Biomedical Engineering and Materials: The complementary disciplines of materials science and engineering can provide understanding of complex, hierarchical systems in biological and medical sciences. The specific strategy of this group is to produce solutions to clinically relevant problems, through the study of normal and disordered tissue structure/function. An integrated, multiscale approach is taken with respect to both structural organisation and reactivity of tissues studied from the nano- and micro-scale. • Modelling and Simulation in Engineering Systems: In recent years, computational modelling and simulation has become one of the leading fields in engineering. For fluid problems, computational fluid dynamics (CFD) is well established with research now focusing on specialised and more advanced fields like Large Eddy Simulation and Direct Numerical Simulation.

• Functional Nanomaterials: The development and understanding of nanostructurised materials overlaps with other research groupings at Queen Mary. A large area of our research is in nanocomposites and the creation of multifunctional polymeric materials based on carbon nanofillers such as carbon nanotubes, grapheme and carbon black. Another research area that has been recently added is work in micro- and nano-encapsulation and work based on a layer-by-layer adsorption approach.

External funding The School’s research areas are supported by external grants from UK Research and Government Agencies including: the Engineering and Physical Sciences Research Council (EPSRC), the Department of Trade and Industry (DTI) and the European Union, as well as a multitude of industrial sponsors.

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The School of Engineering and Materials Science

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Further information

How to apply All applications should be made online at www.sems.qmul.ac.uk/pgadmissions

English language requirements All teaching and examinations are in English, so a good command of the language is essential. If your first language is not English you must provide evidence that your English skills are sufficient by including with your application details of a recognised English qualification. Our minimum requirement is IELTS 6.5 (internet-based TOEFL 92). For more information, see www.qmul.ac.uk/international For more information, contact: English Language and Study Skills Office Tel: +44 (0)20 7882 2827 email: elss@qmul.ac.uk www.languageandlearning.qmul.ac.uk

Tuition fee and living costs Tuition fee information for all postgraduate programmes can be found at www.sems.qmul.ac.uk/pgadmissions For the most up-to-date guidance on living costs in London, visit www.welfare.qmul.ac.uk/international

International Science and Engineering Excellence Awards In recognition of academic excellence and the important investment that overseas students are making in their education, we are pleased to offer International Science and Engineering Excellence Awards. Awards are worth either £1,500 or £4,000 per year (deducted from your tuition fees). How do I qualify? • £1,500 award – you must meet or exceed your programme’s entry requirements • £4,000 award – you must have a firstclass undergraduate degree (or equivalent) How do I apply? There is no need to complete a separate application form. Just apply for a programme at Queen Mary and we will consider you for an award on the basis of the information you supply.

Contact us (taught programmes) Tel: +44(0)20 7882 8735 email: sems-pgadmissions@qmul.ac.uk www.sems.qmul.ac.uk/pgadmissions

Scholarships

Contact us (research programmes)

Information about scholarships and bursaries for Home and EU students can be found at: www.qmul.ac.uk/postgraduate/funding

Tel: +44(0)20 7882 8730 email: j.hills@qmul.ac.uk www.sems.qmul.ac.uk/research

For information about scholarships and bursaries for Internationals students, visit: www.qmul.ac.uk/international/feesfinance

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Notes

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Any section of this publication is available in large print upon request. If you require this publication in a different accessible format we will endeavour to provide this where possible. For further information and assistance, please contact: hr-equality@qmul.ac.uk; +44 (0)20 7882 5585. The information given in this publication is correct at the time of going to press. The College reserves the right to modify or cancel any statement in it and accepts no responsibility for the consequences of any such changes. For the most up-to-date information, please refer to the website www.qmul.ac.uk This prospectus has been printed on environmentally friendly material from well-managed sources. Produced by Marketing and Communications - Pub10084

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For further information contact: The School of Engineering and Materials Science Queen Mary, University of London Mile End Road London E1 4NS Tel: +44 (0)20 7882 8735 email: sems-pgadmissions@qmul.ac.uk www.sems.qmul.ac.uk