The Technology Management Group of UCL's Mullard Space Science Laboratory (MSSL) and UCL Centre for Systems Engineering (UCLse) have pooled expertise to develop this exciting programme, which equips students with the knowledge and skills necessary to develop a career in technology management or engineering management.
Students learn about the challenges and opportunities of working with new and legacy technology, and are introduced to key concepts such as technology maturity, lifecycles, risk, reliability and resilience. Systems and strategic thinking is promoted throughout, and the importance of the enterprise context. The research elements aim to instil a deep knowledge of at least one area of technology management with industrial relevance.
Students undertake modules to the value of 180 credits.
The programme consists of four core taught modules (60 credits), two optional taught modules (30 credits) and three research modules (90 credits).
Students choose two of the following:
Students undertake a structured research programme comprising:
Teaching and learning
Teaching methods incorporate a mix of lectures and case study-based teaching, and groupwork, in which students will be challenged to come up with novel ideas, lead groups to innovative solutions and manage complex tasks under tight time pressure. Assessment is through coursework, examinations, written reports and presentations, and the dissertation.
Further information on modules and degree structure is available on the department website: Technology Management MSc
UCLse has strong links with companies in the aerospace, communications, construction, energy, transport and defence sectors and our Industrial Advisory Board ensures relevance to industry.
Typical career destinations might include:
Drawing on our experience of providing short training courses for industry (such as the Project Manager training courses we run for the European Space Agency) we will integrate a large amount of skills development into our teaching, including skills in communication, negotiation, leadership and motivation, decision-making, and managing complex, time-constrained tasks, all of which will be beneficial for future careers.
The programme blends general principles of management with technology-focused teaching and integrates aspects of systems engineering and project management; the UCL Mullard Space Science Laboratory has nearly fifty years’ experience of developing cutting-edge spacecraft technology, and the programme content builds on research conducted by the Technology Management Group at MSSL in these areas.
The programme contains two compulsory modules relevant to leadership and entrepreneurship (Technology Strategy, and Business Environment). These modules will give students the knowledge and skills necessary to lead new technology-driven enterprises.
The curriculum has an international focus, with case studies from major technology companies around the world including Apple, Samsung and Lenovo. A number of industrial visits are anticipated and this ‘real world’ exposure to organisations will help contextualise the theory and techniques learnt.
The MSc in Environmental Technology has been running for over 40 years and provides the highest standard of knowledge and skills development for environmental and sustainability specialists. Through the course students acquire a diverse range of discipline-specific problem-solving skills for tackling contemporary sustainability issues. A major emphasis of the course is on the way that environments function and on the compatible tools, alternative technologies and policies for sustainable environmental management.
Our course combines the natural and social sciences, engineering and business in a truly interdisciplinary manner, providing a foundation for graduates to demonstrate their ability to identify and resolve environmental and sustainability issues in a holistic way. This broad training is followed by an in-depth education in many specialised areas, maintaining the course's interdisciplinary nature. The specialist options in the second term are designed to cater for a variety of individual interests and career requirements.
The course provides students with different options to build on their undergraduate degree, by allowing them to specialise in an area of particular interest, convert undergraduate knowledge to a different setting, differentiate for the job market and learn specific techniques and tools for research and management.
MSc candidates learn to appreciate that successful projects depend, at least in part, on belonging to a network of experts aiming to advance personal and collective environmental goals. We emphasise a friendly and supportive learning environment.
Building on Imperial’s environmental world-class research portfolio, dedicated teaching staff coordinate the interdisciplinary nature of our course and very strong links with industry, business and regulators. We pride ourselves on the quality of the service we provide to students, science and the society, and our excellence in delivering the valuable interaction between scientific/technological training and industrial experience.
First term – Core Course
The Core Course emphasises contemporary policy debates through a number of cross-cutting themes: climate change and energy, international development, sustainability and health, and biodiversity. This is delivered through the following modules:
Second term – specialist Options
Student elect to specialise in one of nine Options in the second term. A strong case study approach is employed with emphasis on working in teams, decision-making, strong analytical skills and report writing and delivery. The nine specialist options currently offered on the course include:
Third Term – Individual Research Project
The research project term, running from April to September, aims to provide graduates with valuable research and practical experience and give them the ability to address individual sustainability and environmental problems with confidence. It provides the opportunity to undertake rigorous independent research; to apply knowledge and understanding of sustainability and environmental disciplines to practical problems; and to develop and demonstrate interdisciplinary, transferable skills with specific emphasis on project management and oral and written presentation skills.
The research project normally follows from the specialist Option and may involve any combination of desk-, laboratory- or fieldwork. It may be set up and carried out in conjunction with an outside organisation thereby providing practical experience which greatly enhances employment prospects, and may be carried out in the UK or abroad.
The programme aims to:
• Provide the highest standard of training for environmental scientists and managers, who will become leaders in their fields, whether in academia, consultancy, research, government bodies, non-governmental organisations or industry and commerce, both nationally and internationally
• Deliver an holistic understanding of the interdisciplinary complexities underlying environmental issues integrating science, technology, law, economics, policy and management, with in-depth education in the more specific areas addressed by the eight specialist options
• Attract highly motivated students, both from within the UK and from overseas
The expected learning outcomes are:
Links with Industry
The MSc in Environmental Technology has developed very strong links with employers and research organisations, and maintains strong links with our large alumni body. All Options benefit from industry and alumni teaching into the course, actively complementing the academic teaching delivered by staff members. Collaborative frameworks are in place aim to deliver outputs beneficial to both organisations and the students in our course.
This award is offered within the Postgraduate Scheme in Health Technology, which aims to provide professionals in Medical Imaging, Radiotherapy, Medical Laboratory Science, Health Technology, as well as others interested in health technology, with an opportunity to develop advanced levels of knowledge and skills.
A. Advancement in Knowledge and Skill
Students develop intellectually, professionally and personally while advancing their knowledge and skills in Medical Laboratory Science. The specific aims of this award are:
B. Professional Development
C. Evidence-based Practice
D. Personal Development
Our laboratories are well-equipped to support students in their studies, research and dissertations. Our specialised equipment includes a flow cytometer, cell culture facilities; basic and advanced instruments for molecular biology research (including thermal cyclers, DNA sequencers, real-time PCR systems and an automatic mutation detection system), microplate systems for ELISA work, HPLC, FPLC, tissue processors, automatic cell analysers, a preparative ultracentrifuge and an automated biochemical analyser.
This programme is accredited by the Institute of Biomedical Science (UK), and graduates are eligible to apply for Membership of the Institute.
To be eligible for the MSc in Medical Laboratory Science (MScMLS), students are required to complete 30 credits:
Apart from the award of MScMLS, students can choose to graduate with the following specialism:
To be eligible for the specialism, students should complete 2 Compulsory Subjects (6 credits), a Dissertation (9 credits) related to the specialism, 4 Specialty Subjects (12 credits) and 1 Elective Subject (3 credits).
* Specialty Subject
Health Care Technology (HCT) is a unique Master’s programme in Europe and Estonia is the first country to start teaching Health Care Technology in such an all-inclusive form. HCT focuses on combination of academic and practical skills and the lecturers are mostly from the industry, bringing the latest knowledge and experience to the students.
HCT Master’s program has two specialities: 1) Health care technology (HCT) and 2) Occupational Health Science and Ergonomics (OHSE).
HCT speciality is for people who are interested in healthcare management combined with information technology and innovation. Not just creating new eHealth applications, but making sure it is humanly, financially, economically viable.
Occupational Health and Ergonomics (OHSE) speciality is for people who are interested in health and safety management, ergonomics and designing innovative workplaces, promoting work life quality, productivity and employees’ wellbeing.
An HCT alumni works in healthcare organisation managements, in IT development companies that develop healthcare applications and systems, laboratory management, rehabilitation management and as academics in the university. A OHSE alumni works in variety of organisations, private and state, in management of health and safety, working life quality, ergonomics, occupational health services and as academics in the university.
The idea to create Health Care Technology programme was born because of high demand on the market for Health Care Specialists. After discussions and brainstorming amongst The Institute of Clinical Medicine and industry partners, the Master's programme was created. For the HCT major to be more effective, the students will attend apprenticeship in the following medical or health care companies:
OHSE major students will attend apprenticeship in different manufacturing companies, state organisations and occupational health services.
The aim of Health Care Technology major is to prepare e-Health technology specialists who have acquired the know-how for working in different health care sector organisations and have the knowledge about the client and patient centred approach and manner of behaviour characteristics of the modern health care system.
Tallinn University of Technology is the first university to start teaching Health Care Technology in this all-inclusive form. Theory lectures are combined with practical studies in our medical and health care industry partner organisations, teaching students how to use their freshly learnt skills and how to put them to work.
Health Care Technology programme professors are from Estonia as well as from Europe and North America, covering Estonian and international experience in different levels and angles of health care. Estonia is well known for its technological inventions in e-Health and their successful implementation, making it a lucrative country to study and work in technological fields.
School of Information Technologies (former Faculty of Information Technology) was founded in 1965. The faculty trains specialists in the main fields of information and communications technology (ICT) at bachelor, master and doctoral level. High-quality knowledge based teaching and training is based on international research and development activities, and tight cooperation with ICT industry. There are more than 2100 students annually learning in the faculty, which employs 150 faculty members, lecturers, researchers and engineers.
The master's programme Water Technology is a two-year MSc programme with a joint degree. Global water threats and water challenges in society require new directions that lead to breakthrough solutions. You will develop new water processes and find technological answers. Science and technology from various disciplines adds value to your career in water research and business.
New water process technology needs to be developed in order to produce clean water from alternative sources like salt (sea) water, waste water or humid air minimizing the use of precious groundwater and to treat waste water and to recover valuable compounds. These challenges require academically-trained experts that can think out of the box and help to find process oriented technological solutions in the near future.
To train and educate these experts a dedicated joint master’s programme in Water Technology has been set up. The programme is offered jointly by Wageningen University & Research, University of Twente and University of Groningen. You will study in Leeuwarden at Wetsus, the European centre of excellence for sustainable water technology.
On the programme of Water Technology page you can find the general outline of the programme and more detailed information about courses, thesis and internship.
Wetsus brings researchers from various disciplines together in one research laboratory. In this way, it creates a unique multidisciplinary environment to develop new innovations.
A huge network of universities and companies enable the exchange of ideas, knowledge and opportunities. Wetsus aims at breakthrough process oriented technological solutions. Learn more about the innovation environment.
This study domain is becoming more and more relevant due to the urgent need for new technologies to meet global water problems. Water technology for public drinking water production and sewage water treatment is a very large market. Furthermore, the largest use of fresh water is for irrigation purposes. The industrial water supply and industrial waste water treatment also represent a significant market. There is no question that businesses involved in water technology will grow tremendously. Besides this, human capital is a basic condition to guarantee the success and continuity of the development of sustainable technologies. In many EU countries, the lack of talented technological professionals is becoming an increasingly limiting factor. The programme prepares students for a professional position in the broad area of water technology. Graduates have good national and international career prospects in business and research.
Student Stefanie Stubbé.
"Wetsus gave me the opportunity to get personalized education: teachers that take the time for you and fellow students that challenge and collaborate with you at the same time. Water technology is going to be huge in the future; I already experienced that at several companies when I searched for an internship. Although it is sometimes hard work and far away from the "city-life" in the Netherlands; I've never regretted my choice to start this Master!"
Scientific analysis is a key tool in the study of archaeological artefacts and assemblages. This MSc offers detailed training in the use of scientific techniques for the analysis of archaeological and heritage materials, and a solid background in the archaeology and anthropology of technology, allowing students to design and implement archaeologically meaningful scientific projects.
This degree aims to bridge the gap between archaeology and science by integrating both a detailed training in the use of scientific techniques for the analysis of inorganic archaeological materials and a solid background in the anthropology of technology. By the end of the degree, students should have a good understanding of the foundations of the most established analytical techniques, practical experience in their application and data processing, as well as the ability to design research projects that employ instrumental analyses to address archaeological questions.
Students undertake modules to the value of 180 credits.
The programme consists of one core module (15 credits), four optional modules (75 credits) and a research dissertation (90 credits).
You are then able to choose further optional modules to the value of 75 credits. At least 15 credits must be made up from the following:
At least 30 credits must be made up from the following list below:
In order to allow for a flexible curriculum, students are allowed to select up to 30 credits from any of the postgraduate modules offered at the UCL Institute of Archaeology under other Master's degrees
All students undertake an independent research project which culminates in a dissertation of 15,000 words.
Teaching and learning
The programme is delivered through a combination of lectures, seminars, practical demonstrations and laboratory work. A popular aspect of this programme is its extensive use of analytical facilities. Assessment is through essays, practicals, projects, laboratory reports and oral presentations depending on the options chosen, and the dissertation.
Further information on modules and degree structure is available on the department website: Archaeological Science: Technology and Materials MSc
Given our strong emphasis on research training, many of our MSc graduates take up further research positions after their degree, and over half of our MSc students progress to PhD research. Their projects are generally concerned with the technology and/or provenance of ceramics, metals or glass in different regions and periods, but most of them involve scientific approaches in combination with traditional fieldwork and/or experimental archaeology.
Some of our graduates are now teaching archaeometry or ancient technologies at different universities in the UK and abroad. Others work as conservation scientists in museums and heritage institutions, or as finds specialists, researchers and consultants employed by archaeological field units or academic research projects.
Due largely to an unparalleled breadth of academic expertise and laboratory facilities, our graduates develop an unusual combination of research and transferable skills, including critical abilities, team working, multimedia communication, numerical thinking and the use of advanced analytical instruments. On completion of the degree, graduates should be as comfortable in a laboratory as in a museum and/or an archaeological site. They become acquainted with research design and implementation, ethical issues and comparative approaches to world archaeology through direct exposure to an enormous variety of projects. The range of options available allows students to tailor their pathways towards different career prospects in archaeology and beyond.
The UCL Institute of Archaeology is the largest and most diverse department of archaeology in the UK. Its specialist staff, outstanding library and fine teaching and reference collections provide a stimulating environment for postgraduate study.
The excellent in-house laboratory facilities will provide direct experience of a wide range of techniques, including electron microscopy and microphone analysis, fixed and portable X-ray fluorescence, X-ray diffraction, infra-red spectroscopy, petrography and metallography under the supervision of some of the world's leading specialists.
The institute houses fine teaching and reference collections that are extensively used by MSc students including ceramics, metals, stone artefacts and geological materials from around the world. In addition, the institute has a wide network of connections to museums and ongoing projects offering research opportunities for MSc students.
The Research Excellence Framework, or REF, is the system for assessing the quality of research in UK higher education institutions. The 2014 REF was carried out by the UK's higher education funding bodies, and the results used to allocate research funding from 2015/16.
The following REF score was awarded to the department: Institute of Archaeology
73% rated 4* (‘world-leading’) or 3* (‘internationally excellent’)
Learn more about the scope of UCL's research, and browse case studies, on our Research Impact website.
The textiles industry is continually evolving. Developing new products that meet the needs of a changing market demands a combination of technology and design technology. This programme will give you access to the latest developments across the textile industry to equip you for these challenges.
You’ll receive training in key skills including laboratory practice, problem solving, and reasoning, and you’ll undertake a substantial research dissertation. In addition, you’ll have the chance to specialise in either textile technology or textile design technology, depending on your own interests and career plans. A variety of optional modules will also give you the chance to learn about topics such as medical textiles, or fashion and sustainability.
Taught by experts in one of the UK’s major hubs for textile research, this programme will help you gain the specialist knowledge and skills to build a career in a fast-paced and challenging industry.
We have plenty of facilities to help you make the most of your time at Leeds, including well-equipped laboratories and purpose-built computer clusters so you can build your skills on both PC and Mac.
The course is accredited by the Society of Dyers and Colourists as being equivalent to its ASDC examinations leading to Chartered Colourist (CCol) status. It is also accredited by The Textile Institute at Associate level (CText ATI), this demonstrates a good broad knowledge of textiles and its application, and allows you to apply for Licentiateship (LTI) upon graduation, and Associateship (CText ATI) after one year in industry.
Everyone studies the same compulsory modules throughout the programme, which allow you to become a confident researcher and give you experience of practical lab work in Semester 2. You’ll apply the knowledge and skills that you have gained throughout the course to a substantial piece of independent research, which you’ll submit by the end of the programme in September.
You’ll also have the chance to specialise in the aspects of textiles that interest you by selecting the appropriate pathway.
Textile Design Technology pathway
In the modules on this pathway you’ll learn how to view technology through the eyes of both the designer and the technologist. You’ll gain understanding of how to manipulate technology to design and produce new products and how to maintain and/or improve the desirability of current products.
Textile Technology pathway
You will gain in-depth knowledge of advanced textile technology, textile processes and quality management together with the science, technology and testing of functional textile materials, product development, coloration and finishing processes, medical textiles, nonwovens and performance clothing.
If you choose to study part-time, you’ll study over a longer period and take fewer modules in each year.
We use various teaching and learning methods, including practicals, lectures, seminars and tutorials. Independent study is also vital to this degree, allowing you to develop your skills and prepare for taught sessions so you can make the most of them.
You’ll be assessed by a range of methods including essays and exams as well as practical and project work, reports, literature reviews and presentations.
This degree is designed to equip you with a wide range of knowledge and skills to succeed in careers such as textile management, technical consultancy, and education and training. You’ll also be well prepared to continue with academic research in textiles at PhD level.
If you take the Textile Design Technology pathway, you could work in the industry as designers or in areas, which need an understanding of technology and design e.g. buying, textile product development for apparel, and in various third party testing houses. Moreover, you could work in various textile industries in managerial positions including the retail and supply chain management with major clothing companies and their suppliers.
The Textile Technology pathway will allow you to gain the skills to pursue a career in any of the following fields: technical consultancy; education and training; and academic research in technical textiles. You may also be employed as a product development technologist in specialist fields such as medical textiles, geotextiles and civil engineering materials, aerospace and transport engineering materials, and sport and performance clothing.
We encourage you to prepare for your career from day one. That’s one of the reasons Leeds graduates are so sought after by employers.
The Careers Centre and staff in your faculty provide a range of help and advice to help you plan your career and make well-informed decisions along the way, even after you graduate. Find out more at the Careers website.
This programme provides professional training in polymer science and technology for graduates of science, engineering and technology subjects.
Lectures are supplemented by an extensive variety of laboratory exercises, spanning chemical and physical characterisation, and compounding and processing technology experiments on pilot-scale laboratory equipment.
Core study areas include polymer science, polymer process engineering, plastics and composites applications, polymer properties, polymer characterisation, polymerisation and polymer blends, plastics processing technology and a project.
Optional study areas include plastics processing technology, rubber compounding and processing, adhesive bonding, and sustainable use of materials.
- Polymer Science (SL)
- Polymer Process Engineering (SL)
- Plastics and Composites Applications (SL)
- Polymer Properties (SL)
- Polymer Characterisation (OW)
- Polymerisation and Polymer Blends (SL)
- MSc Project
- Biomaterials (SL)
- Rubber Compounding and Processing (OW)
- Adhesive Bonding (OW)
- Polymer Science (DL)
- Plastics and Composites Applications (DL)
- Polymer Properties (DL)
- Polymer Characterisation (OW)
- Polymerisation and Polymer Blends (DL)
- Plastics Processing Technology (OW)
- MSc Project
- Rubber Compounding and Processing (OW or DL)
- Adhesive Bonding (OW)
- Sustainable use of Materials (OW or DL)
- Design with Engineering Materials (DL)
- Polymer Process Engineering (SL)
- Materials Modelling (SL)
Key: SL = Semester-long, OW = One week, DL = Distance-learning
Alternative modules* are only available under certain circumstances by agreement with the Programme Director.
Interviews may be held on consideration of a prospective student’s application form. Overseas students are often accepted on their grades and strong recommendation from suitable referees.
The MSc comprises a combination of semester-long and one week modules for full-time students, whilst part-time students study a mix of one week and distance-learning modules.
MSc students undertake a major project many of which are sponsored by our industrial partners. Part-time student projects are often specified in conjunction with their sponsoring company and undertaken at their place of work.
All modules are 15 credits. The MSc project is 60 credits.
MSc: 180 credits – six core and two optional modules, plus the MSc project.
PG Diploma: 120 credits – six core and two optional modules.
PG Certificate: 60 credits – four core modules.
Modules are assessed by a combination of written examination, set coursework exercises and laboratory reports. The project is assessed by a dissertation, literature review and oral presentation.
Both MSc programmes are accredited by the Institute of Materials, Minerals and Mining (IOM3), allowing progression towards professional chartered status (CEng) after a period of relevant graduate-level employment.
Typical careers span many industrial sectors, including plastics, rubber, chemical and additives industries and packaging.
Possible roles include technical and project management, R&D, technical support to manufacturing as well as sales and marketing. Many of our best masters students who are interested in research stay with us to study for a PhD.
Bursaries are available for both UK / EU and international students, and scholarships are available for good overseas applicants.
The Department has contributed to the advancement and application of knowledge for well over 40 years. With 21 academics and a large support team, we have about 85 full and part-time MSc students, 70 PhD students and 20 research associates.
Our philosophy is based on the engineering application and use of materials which, when processed, are altered in structure and properties.
Our approach includes materials selection and design considerations as well as business and environmental implications.
We are also home to the Loughborough Materials Characterisation Centre – its state of-the-art equipment makes it one of the best suites of its kind in Europe used by academia and our industrial partners.
The Centre supports our research and teaching activities developing understanding of the interactions of structure and properties with processing and product performance.
Our research activity is organised into 4 main research groups; energy materials, advanced ceramics, surface engineering and advanced polymers. These cover a broad span of research areas working on today’s global challenges, including sustainability, nanomaterials, composites and processing. However, we adopt an interdisciplinary approach to our research and frequently interact with other departments and Research Schools.
- Career prospects
Over **% of our graduates were in employment and / or further study six months after graduating. Our unrivalled links with industry are
hugely beneficial to our students. We also tailor our courses according to industrial feedback and needs, ensuring our graduates are well prepared
Find out how to apply here http://www.lboro.ac.uk/study/postgraduate/programmes/departments/materials/polymer-science-tech/