NANS7012 NANO2/CH5/PH3: Applied Functional Materials Based on DNA-Nanotechnology (JSS33) (3 cr)

Study level:
Advanced studies
Grading scale:
Pass - fail
Language:
English
Responsible organisation:
Faculty of Mathematics and Science
Curriculum periods:
2024-2025

Description

The course will concentrate on DNA-nanotechnology and its utilization in modern nanoscience. Four expert lecturers will introduce and explain the novel but already widely used methods on how the DNA-molecule can be utilized to build self-assembled nanostructures and how these structures can be further utilized for example in photonics, pharmacy and health care, microfabrication etc. The learned methods are currently more and more used in development and research of modern technology and health care, and are thus immediate important and useful for students to learn them.
The course consists of lectures and hands-on laboratory works where students can learn and test themselves the basic DNA-nanotechnology methods, such as, how to fold DNA-origami structures, and also how to simulate the expected outcome.

The virtual part is planned to take place after the physical on-site component. In the virtual events the student will go through and learn important simulation methods developed to estimate the anticipated outcome and the results of the self-assembly processes, which were discussed and learned during the on-site part. This will include for example the computer assisted design of a DNA origami, and simulation of the expected result, as well as electromagnetic simulations of the structures intended to photonics use.

  • DNA-self-assembly
  • DNA-origami
  • Applications for photonics/plasmonics
  • Applications for health wellbeing, like drug delivery & diagnostics
  • Hybrid nanofabrication methods involving DNA 

Learning outcomes

After passing the course students should:

  • know techniques used for nanofabrication by DNA-self-assembly
  • be able to design and fabricate DNA-origami
  • know how DNA-nanostructures (DNA-origami or similar) can be used for applications like: biological and medical, plasmonic/optical, sensing, lithography
  • be familiar with basic imaging and characterization methods/tools
  • be familiar with basic simulation and design methods/tools

Description of prerequisites

The course is mainly aimed for master and PhD students, but it is suitable also for bachelor student with some knowledge on the field.

Completion methods

Method 1

Description:
During the summer school: Lectures + hands on labs + simulations, online part after the course from home university
Evaluation criteria:
Pass/fail
Select all marked parts
Parts of the completion methods
x

Participation in teaching (3 cr)

Type:
Participation in teaching
Grading scale:
Pass - fail
Evaluation criteria:
<p>Pass/fail</p>
Language:
English
Study methods:

During the summer school: Lectures + hands on labs + simulations, online part after the course from home university    

Teaching