Photos of university / #ucl
The MSc in Nanotechnology and Regenerative Medicine at University College London is an interdisciplinary postgraduate programme designed to equip students with advanced knowledge and practical skills in the rapidly evolving fields of nanotechnology and regenerative medicine. This programme combines the principles of nanoscience, materials engineering, biology, and medicine to address some of the most pressing challenges in healthcare and biomedical research. Throughout the course, students will explore the fundamental science underpinning nanomaterials, nanoparticles, and nanoscale devices, as well as their applications in diagnostics, drug delivery, tissue engineering, and regenerative therapies. The programme emphasizes hands-on laboratory training, enabling students to develop expertise in state-of-the-art techniques such as electron microscopy, nanopatterning, cell culture, and biomaterials synthesis. Core modules cover topics like nanomaterials, nanofabrication, regenerative medicine principles, cellular and molecular biology, and bioengineering principles. Additionally, students have opportunities to specialize through elective modules that align with their personal research interests and career goals. The programme fosters a multidisciplinary approach, encouraging collaboration between students from backgrounds such as engineering, biology, and medicine. Research elements are integrated into the curriculum, culminating in a dissertation project where students undertake original research, often in collaboration with leading experts and laboratories at UCL. Graduates of this programme are prepared for careers in academia, biomedical industry, healthcare, or further research training. The programme also emphasizes the ethical, regulatory, and societal aspects of emerging technologies, ensuring graduates are well-rounded professionals capable of contributing to cutting-edge developments in nanomedicine and regenerative therapies. With access to UCL’s extensive facilities and a vibrant academic community, students are supported throughout their learning journey to develop innovative solutions at the intersection of nanotechnology and regenerative medicine.
This programme will equip students with a critical understanding of:
- how nanotechnology can be harnessed for the improved detection and treatment of disease
- the use of stem cells in medicine
- tissue engineering strategies for tissue regeneration
- improving biomaterials for directing cell behaviour
- the regulatory, ethical and commercial hurdles for the translation of these emerging technologies.
Students undertake modules to the value of 180 credits.
The programme consists of five core modules (75 credits), one optional module (15 credits) and a research project (90 credits).
A PG Certificate (60 credits) is offered in Flexible/Modular study mode only, over a maximum two years. The programme consists of two core modules (30 credits) and two optional modules (30 credits).
Core modules
- Nanotechnology in Medicine *
- Applied Tissue Engineering *
- Biomaterials
- Research Methodologies
- Practical Bio-Nanotechnology and Regenerative Medicine
- * PG Cert - compulsory modules
Optional modules
Choose one of the following options; attendance at the other module is possible but will not be assessed.
- Stem Cells in Medicine and their Applications in Surgery
- Translation of Nanotechnology and Regenerative Medicine
Dissertation/report
All students undertake an extensive laboratory-based (90 credits) research project which culminates in a dissertation of c.15,000 words and an individual viva voce.
Teaching and learning
The programme is delivered through a combination of lectures, tutorials, workshops, group discussions, practical sessions, and demonstrations. Assessment is through presentations, problem-solving workshops, written practical reports, coursework, unseen written examinations and the dissertation.
A minimum of a second-class UK Bachelor's degree in a science/engineering subject or a medical degree, or an overseas qualification of an equivalent standard. Research experience will also be taken into account.
The MSc in Nanotechnology and Regenerative Medicine at University College London offers a range of financing options to support students throughout their studies. The program's tuition fees vary depending on the student's residence status, with UK/EU students typically paying a different rate from international students. For home students, the tuition fee is approximately £12,500 per year, while international students may be required to pay around £26,000 annually. These fees are subject to change and may be updated for each academic year.
In addition to tuition fees, students should consider living expenses, which include accommodation, food, transportation, study materials, and personal costs. London, being a vibrant and culturally diverse city, offers a wide array of accommodation options, from university halls to private rentals, with costs ranging from approximately £150 to £300 per week depending on location and type.
Financial support is available through several channels. The university provides scholarships and bursaries designed to assist students financially. Some of these scholarships are merit-based, awarded to outstanding applicants, while others are need-based, targeting students with demonstrated financial hardship. For example, the UCL Graduate Research Scholarships and departmental scholarships can help mitigate tuition costs for eligible students. Additionally, students may explore external funding options, such as government loans, private scholarships, and sponsorships from related industries or research organizations.
Students are encouraged to apply for funding early, as competition can be fierce and some scholarships have limited places. Many students also consider part-time work opportunities available on or near campus to help cover living expenses. UCL's career service and student support offices can provide guidance on suitable employment options, as well as advice on financial planning and budgeting.
Graduate students may also explore research assistantships or teaching assistant positions within the department, which offer stipends and tuition fee waivers. These roles often require a commitment to assist faculty with research projects or teaching duties, but they provide valuable professional experience alongside financial benefits.
In summary, financing a Master’s degree in Nanotechnology and Regenerative Medicine at UCL involves considering tuition fees, living costs, and available scholarships or employment opportunities. The university is committed to supporting students financially through a variety of funding schemes, but prospective students should proactively research and apply for financial aid well in advance of their intended start date.
The MSc in Nanotechnology and Regenerative Medicine at University College London (UCL) is a multidisciplinary program designed to equip students with fundamental knowledge and practical skills in the rapidly evolving fields of nanotechnology and regenerative medicine. The programme combines coursework, laboratory work, and research projects to provide comprehensive training in the manipulation of materials at the nanoscale, biomaterials, tissue engineering, and regenerative techniques. Students will explore the principles underlying nanofabrication, characterization, and applications in medicine, including drug delivery systems, diagnostics, and tissue regeneration. The programme aims to foster innovation and critical thinking, preparing graduates for careers in academia, industry, or clinical research. UCL's cutting-edge facilities and collaboration opportunities with medical and biotechnology companies offer an immersive learning experience. The curriculum covers topics such as nanomaterials, stem cell biology, biofabrication, and regenerative therapeutics, and emphasizes translating research into real-world medical solutions. The program also includes opportunities for industrial placements, training in research methodologies, and development of transferable skills like project management and scientific communication. Graduates will be well-positioned for roles in biotechnology firms, pharmaceutical companies, healthcare sectors, or further academic research, contributing to advancements in personalized medicine, regenerative therapies, and nanomedicine. The program is suitable for students with a background in engineering, biology, chemistry, or related fields, and aims to produce innovative professionals capable of tackling complex biomedical challenges through the integration of nanotechnology and regenerative medicine approaches.