KEMS9618 CH4/NANO4: Fundamentals and Applications of Chiral Molecules and Crystals (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
This course will introduce the basic concepts and terminology of chiral molecules and look at their unique optical properties and the underlying theory including their structural characterization with practical demonstrations and computer demos to aid the visualization and calculation of the optical properties. The application of chirality molecules and crystals in materials science and its importance to the development of new nanomaterials will be emphasized.
Learning outcomes
After passing the course students should understand:
- The role of (homo)chirality in life (art, math, etc.), terminology and definitions
- Optical activity of chiral compounds, energy ranges, Chirality induction, second harmonics generation, NLO, etc.
- Crystallographic symmetry and rigorous definition of chirality
- Properties of non-centrosymmetric crystals and crystallization techniques
- Chirality transfer and chirality at the nanoscale on surfaces
- Chirality in technology and the CISS effect and ‘hot topics’ in chirality
Description of prerequisites
Bachelor of science recommended but not necessary
Completion methods
Method 1
Description:
Lectures + critical analysis of current literature. Hands on labs + computer work (practical software, computational, theory).
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:
Lectures + critical analysis of current literature. Hands on labs + computer work (practical software, computational, theory).