Our habitat today is being fundamentally shaped by revolutions in biotechnology, computation and climate change. Bio-Integrated Design takes these life-changing phenomena as the foundation to explore radical, sophisticated, yet also critical, design solutions that will shape our future society.
Modes and duration
Full-time students study for 37.5 hours per week during term time. Typically, lectures and seminars occur on two days per week. Flexible mode students normally attend half this amount.
Tuition fees (2020/21)
Note on fees: The tuition fees shown are for the year indicated above. Fees for subsequent years may increase or otherwise vary. Further information on fee status, fee increases and the fee schedule can be viewed on the UCL Students website. Full-time students undertake 180 credits in year one and 120 credits in year two. As such, the fee in year one will be £14,160 (UK/EU)/£29,260 (Overseas) but the fee in year two will be approximately two-thirds of the year one fee (subject to UCL's annual fee increase).
A minimum of a second-class UK Bachelor’s degree in an appropriate subject or an overseas qualification of an equivalent standard. Applicants will also be asked to submit two short pieces of writing. Details on this will be provided once the completed application has been received by the department.
English language requirements
If your education has not been conducted in the English language, you will be expected to demonstrate evidence of an adequate level of English proficiency.
The English language level for this programme is: Standard
Further information can be found on our English language requirements page.
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.
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About this degree
Students will learn to complement scientific protocols with iterative design methods, using new modes of simulation and production. They will also learn how advances in the fields of life science and material science can be applied to create innovative environments.
Students undertake modules to the value of 300 credits.
This programme consists of an intensely taught first year with five taught modules (180 credits) followed by two modules in year two, one of which is a comprehensive, integrated research project (90 credits). All modules are compulsory.
Upon successful completion of 300 credits, you will be awarded a MSc in Bio-Integrated Design.
Please note that the list of modules given here is indicative. This information is published a long time in advance of enrolment and module content and availability is subject to change.
Year one compulsory modules
- Bio-Integrated Design: Computation Skills (15 credits) BARC0053
- Bio-Integrated Design: Literature Review (15 credits) BARC0123
- Bio-Integrated Design: Year 1 Thesis Report (30 credits) BARC0124
- Bio-Integrated Design: Introductory Design Practice (30 credits) BARC0122
- Bio-Integrated Design: Year 1 Applied Interdisciplinary Project (75 credits) BARC0125
- Bio-Integrated Design: Scientific Methods, Laboratory and Environmental Practices (15 credits)
Year two compulsory modules
- Bio-Integrated Design: Science Specialisation and Design (30 credits) BARC0126
- Bio-Integrated Design: Integrated Research Project (90 credits)
This programme has no optional modules
All students undertake an independent research project which culminates in a dissertation of 15,000 words (90 credits).
There is an annual, optional field trip for this programme, subsidised by the school.
Teaching and learning
This programme is taught through workshops, seminars and crits. The programme promotes learning via research and enquiry, in particular through iterative design, material studies and laboratory work.
Assessment will be mainly via coursework, but also through on-going evaluation of transferable skills including presentations, criticism, work ethics in the lab and general teamwork. Your key assessed elements include design portfolios, physical prototyping, illustrated essays and reports, and final oral presentation.
There is an optional field trip for this programme annually, which costs students a maximum of £500 each. Additionally, we estimate that students spend up to £1000 on books specialist materials, prototypes and printing throughout the programme.
All students work differently so costs incurred depend on the approach they take to the brief given. The school encourages students to use recycled materials in their models and presentations – not only is it sustainable, but also cost effective and potentially innovative. The school also offers subsidies for exhibition costs.
Scholarships relevant to this department are displayed below.
- This scheme is now closed for 2020/21
- £15,000 (1 year)
- Based on both academic merit and financial need
For a comprehensive list of the funding opportunities available at UCL, including funding relevant to your nationality, please visit the Scholarships and Funding website.
The Bartlett School of Architecture is one of the world's top-ranked architecture schools and our graduates enjoy excellent employment opportunities.
The programme has been structured to empower students to develop specialist skills and a distinct design vision that merges expertise in biotechnology, design and engineering. You will be prepared for a broad scope of jobs in various industries, including the integration of teams in architecture and engineering offices. You will also be equipped to pursue research either in academia or industry.
Why study this degree at UCL?
Bio-integrated Design MSc is a science-orientated programme, in which students undertake cutting-edge research, analysis and experimentation with new modes of architectural simulation and production. This programme is hosted by The Bartlett School of Architecture and co-directed by the Department of Biochemical Engineering, providing you with access to unique facilities for both design and scientific research.
The interdisciplinary nature of the degree merges a wide range of expertise, employing laboratory testing in biotechnology and synthetic biology; novel design as a research tool to encompass high-end computation and fabrication; multifunctional and bio-receptive materials; ecology and space.
In REF 2014 46% of The Bartlett’s research was rated 4* i.e. “world-leading”, with a further 35% recognised as 3* i.e. “internationally excellent”.* The Bartlett submitted the largest quantity of 4* world-leading research outputs (156 items) of any university submitting to the Architecture, Built Environment and Planning sub-panel. On “Research Environment”, which grades the “vitality” and “sustainability” of the research environment, the Bartlett received the highest score for submission to the Architecture, Built Environment and Planning sub-panel.
This programme is part of B-Pro or Bartlett Prospective, which groups together five of the architecture school's graduate programmes with a unique philosophy and shared approach to the future of design, architecture and the urban environment. Students studying Bio-integrated Design will participate in The Bartlett's annual B-Pro Show, an exhibition of student work in Bloomsbury attended by the industry and public alike each autumn.
Department: Bartlett School of Architecture
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Application and next steps
Students are advised to apply as early as possible due to competition for places. Those applying for scholarship funding (particularly overseas applicants) should take note of application deadlines.
There is an application processing fee for this programme of £80 for online applications and £105 for paper applications. Further information can be found at: www.ucl.ac.uk/prospective-students/graduate/taught/application.
Who can apply?
This programme is ideal for students from a scientific background, with an undergraduate degree in biology, biotechnology and synthetic biology; civil, biochemical and envrionmental engineering and material science. Students from other technical backgrounds who can demonstrate skills and experience from iGEM or biohacking are welcomed.
This programme is also open to students from architecture or other design backgrounds who can demonstrate a strong scientific ability, academically or professionally.
- All applicants
- 11 August 2020
For more information see our Applications page.Apply now
What are we looking for?
When we assess your application we would like to learn:
- why you want to study Bio-Integrated Design at graduate level
- why you want to study Bio-Integrated Design at UCL
- what particularly attracts you to this programme
- how your academic background meets the demands of this challenging programme
- where you would like to go professionally with your degree.
Together with essential academic requirements, the personal statement is your opportunity to illustrate whether your reasons for applying to this programme match what the programme will deliver.
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