2023/24 Taught Postgraduate Module Catalogue
PHYS5117M Advanced Bionanophysics Research
15 creditsClass Size: 20
Module manager: Dr Zhan Ong
Email: Z.Y.Ong@leeds.ac.uk
Taught: Semester 1 (Sep to Jan) View Timetable
Year running 2023/24
Pre-requisite qualifications
Passed Level 3 Physics modulesThis module is not approved as an Elective
Objectives
This course will provide students with the opportunity to learn and discuss about current research topics in experimental bionanophysics. The module will have a strong emphasis on the emerging applications of bionanophysics and the development of new tools and technologies for biomedical and biomaterials applications.Research topics will include:
- Peptide-based self-assemblies for biomedical applications
- Microfluidics
- Biological components from photosynthesis in modern nanotechnology
- Advances in high resolution imaging in the study of dynamics in soft matter and biological system
- DNA bionanotechnology
- Nanoparticles for medical applications
The course will be taught in 2 sections. Each section will focus on 3 specific topics, providing a detailed introduction and discussion of research in each area. At the end of each section, a student group will present a research paper on a topic. This presentation will include a critical analysis of the paper and wider reading of the topic. The student group will answer questions from the module group (students and lecturers) and provide a written report for the questions asked. Students will write a mini-dissertation on the other research topics in the module, and in doing so learning and exploring the science behind the research.
Learning outcomes
Students will be able to demonstrate knowledge, understanding and application of:
1. Current research in bionanophysics.
On successful completion of the module students will also be able to:
1. Extract information from research journal articles and critically assess the science presented.
2. Present reviews of scientific concepts, results and methodology in extended formal scientific English with illustrations and figures and references to literature sources as necessary.
3. Present a project proposal based on current research topics in Bionanophysics in formal scientific English with illustrations and figures and references to literature sources as necessary.
4. Deliver presentations as part of a group, including scientific concepts, results and methodology s and answer related questions.
5. Manage Time and deliver work to deadlines.
Skills outcomes
- Develop an understanding and contextualisation of applications of current bionanophysics research
- Critically analyse research in the field.
- Learn the skills of communicating science and presenting a thorough critical review
Syllabus
Topic 1
Nanoparticles for medical applications
-Nanoparticle imaging contrast agents
-In-vitro nanoparticle diagnostics
Topic 2
Photosynthesis
- Biological cells and light-harvesting proteins manipulation into nanodevices involving polymers/ lipids, novel electrode coatings,
- plasmonic enhancement and algae for biotech.
Topic 3
Microfluidics
- Fluid dynamics in the micrometer size channel
- Single molecules, single cells and single animal in a microfluidic device
Topic 4
Peptide-based self-assemblies for biomedical applications
- Advances in understanding of peptide self-assembly
- Emerging biomedical applications for peptide-based nanomaterials
Topic 5
DNA bionanotechnology
- DNA structural nanotechnology, including DNA origami
- Emerging biomedical and biophysical applications in DNA bionanotechnology
Topic 6
Advances in high resolution imaging in the study of dynamics in soft matter and biological systems
- Developments in spatial and temporal resolution (smaller, faster)
- Application; (i) Organisation of cell membranes: Do Proteins Rule Lipids and (ii) Organisation and Dynamics of Synapse receptors"
Teaching methods
| Delivery type | Number | Length hours | Student hours |
| Office Hour Discussions | 1 | 2.00 | 0.00 |
| Lecture | 7 | 2.00 | 14.00 |
| Seminar | 3 | 2.00 | 6.00 |
| Private study hours | 130.00 | ||
| Total Contact hours | 20.00 | ||
| Total hours (100hr per 10 credits) | 150.00 | ||
Private study
Reading lecture notes and recommended journal articles, as well as sourcing more literature and reading up on new scientific terminologies.The course will make use of original scientific material published in high-profile journals such as:
- Nature
- Science
- PNAS
- and other journals.
All these will be available on Minerva through web-links and PDFs.
Opportunities for Formative Feedback
Students will give a presentation on specific research papers. The presenters will submit a written report to questions asked in the following week. The other students who are not presenting will be required to submit a written document on questions for the presenters. Students will also submit 1 x 2000-word mini-dissertation and a 1 x 1400-word project proposal. Both written and informal feedback will also be provided during the lectures and office hours.Methods of assessment
Coursework
| Assessment type | Notes | % of formal assessment |
| Essay or Dissertation | Mini Dissertation | 30.00 |
| Research Proposal | Project Proposal | 20.00 |
| Presentation | Group Presentation | 30.00 |
| Presentation | Q&A session after group presentations | 20.00 |
| Total percentage (Assessment Coursework) | 100.00 | |
Students must submit a serious attempt at all assessments for this module, in order to pass the module overall.
Reading list
There is no reading list for this moduleLast updated: 28/04/2023 14:55:13
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- Undergraduate module catalogue
- Taught Postgraduate module catalogue
- Undergraduate programme catalogue
- Taught Postgraduate programme catalogue
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