This information sheet indicates how the course will be organized at pandemic code level yellow and green.
If the colour codes change during the academic year to orange or red, modifications are possible, for example to the teaching and evaluation methods.

Plasma Technology

Course Code :1001WETPLT
Study domain:Chemistry
Academic year:2020-2021
Semester:2nd semester
Sequentiality:Credit for Math. meth. physics I, II & III, Gen. physics I, II & III, Exp. physics I, Computer practicum, Intro. analytical mechanics, Intro. chemistry, Intro. field theory OR enrolled bachelor Chemistry and credit for Fundamentals of chemistry I.
Contact hours:20
Study load (hours):84
Contract restrictions: No contract restriction
Language of instruction:Dutch
Exam period:exam in the 2nd semester
Lecturer(s)Annemie Bogaerts
Stefan Tinck

3. Course contents *

Plasma is the fourth state of matter, besides gas, liquid and solid state. A plasma is a (partially or fully) ionized gas. It consists of neutral atoms or molecules, ions, electrons, excited species, photons and radicals. More than 99% of the visible universe is in plasma-state (e.g., the sun, stars, nebulae, solar corona,...). Beside these natural plasmas, plasmas can also be created by humans, i.e., for fusion research and for many technological applications.
In this optional course, the student is made familiar with plasma in all its aspects (natural astro-plasmas, fusion plasmas, gas discharges). Also the many applications of plasmas (e.g., materials technology, micro-electronics, lamps, lasers, plasma-TVs, analytical chemistry, environmental and biotechnological applications,...) are explained.
The special physics and chemistry of plasmas (with special emphasis to gas discharges) will be treated, i.e., how is a plasma created in the various forms of gas discharges, electrical properties of plasmas, kind of species in the plasma and their collision processes, transport of species in the plasma, chemical reactions in the plasma,... Also the way in which the physics and chemistry can be described by means of numerical modeling and experiments will be discussed.

Finally, the students will have to write a paper about an application of plasma technology, based on scientific papers in the literature.

This course contributes to realizing the following general aims of the Bachelor education Chemistry: B1, B6, B8.