course-details-portlet

TMT4320

Nanomaterials

Credits 7.5
Level Second degree level
Course start Autumn 2013
Duration 1 semester
Language of instruction English and norwegian
Examination arrangement Written examination

About

About the course

Course content

The course should give a basic introduction to chemical and physical principles in the synthesis of inorganic nanostructured materials. In addition, basic principles of finite size effects will be covered. The course will also cover different methods for synthesis and characterization of different nanostructures and nanostructured bulk materials. Prerequisites include general knowledge in chemistry, physics and material science. The course forms the basis for teaching in TKP4190 Fabrication and Applications of Nanomaterials.

Learning outcome

After completion of the course the student should be able to:
- Qualitatively describe how the nanoparticle size can affect the morphology, crystal structure, reactivity, and electrical properties.
- Describe several synthesis methods for fabrication of inorganic nanoparticles, one-dimensional nanostructures (nanotubes, nanorods, nanowires), thin films, nanoporous materials, and nanostructured bulk materials, and also could describe how different lithography methods can be used for making nanostructures. The student should have a theoretical background within synthesis/fabrication of nanomaterials which makes he/she prepared for later literature studies and laboratory work within the field.
- Perform simple geometric calculations of surface energy, coordination number, and volume fraction related to nanoscale properties and synthesis, and also simple chemical calculations related to synthesis.
- Use the acquired knowledge to evaluate which synthesis methods that can be best suited for fabricating nanostructured materials of various inorganic compounds (metals, semiconductors, oxides, fullerenes) and constructions of these.
- Consider the basic ethical, health-related and environment-related concerns encountered with respect to nanoparticles and nanomaterials in general.

Learning methods and activities

The teaching is based on lectures and exercises. 6 out of 12 exercises have to be approved to be able to take the final written examination. The final grade is based on a written exam at the end of the semester. The result for the exam is assigned a letter grade. If there is a re-sit examination, the examination form may be changed from written to oral.

Compulsory assignments

  • Exercises

Course materials

To be announced at the beginning of the semester.

Subject areas

  • Chemistry
  • Materials Science and Engineering
  • Nanotechnology

Contact information

Course coordinator

Lecturers

Department with academic responsibility

Department of Materials Science and Engineering

Examination

Examination

Examination arrangement: Written examination

Ordinary examination - Autumn 2013

Skriftlig
Grade Letters Weighting 100/100 Date 2013-12-14 Time 09:00 Duration 4 timer Place and room Not specified yet.

Examination arrangement: Oral examination

Re-sit examination - Summer 2014

Oral examination
Grade Letters Weighting 100/100 Date 2014-08-08

Re-sit examination - Spring 2014

Oral examination
Grade Letters Weighting 100/100

All about examinations at NTNU