prof. Ing. Martin Weiter, Ph.D.

Institute of Materials Science (ÚCHM)

Not applicable.

Not applicable.

Not applicable.

Not applicable.

Hadziioannou G., Malliaras G. C.: Semiconducting Polymers. Wiley-VCH Verlag GmbH, Weinheim 2006
Rogers B., Pennathur S., Adams A.: Nanotechnology - understanding small systems. CRC Press Taylor & Francis Group: Boca Raton, FL 2008
Organic Electronics I, Editor Hagen Hauk, Wiley-vCH, 2013, ISBN: 978-3-527-32647-1 (tištěná verze) a 978-3-527-64023-2- (ePdf)
Organic electronics Emerging Concepts and Technology , Editors: Fabio Cicora, Clara Santato, Wiley-vCH, 2013, ISBN: 978-3-527-41131-3 (tištěná verze) a 978-3-527-65099-6 (ePdf)
Malhotra S., Prasad B. L. V., Fraxedas, J., Molecular Materials: Preparation, Characterization, and Applications, CRC Press; 2017 (CS)

Not applicable.

Not applicable.

Czech

Not applicable.

This course is an overview of the properties and possible applications of advanced molecular materials in the current technical and industrial practice areas including nanotechnology. In addition to standard molecular materials (polymers, low molecular compounds), attention is focused mainly on new molecular structures, such as carbon nanostructures, dendrimers, magnetic, and other molecules. During the course, they are gradually discussed the properties of the individual materials preparation technology of nanomaterials and nanostructures, methods of characterization at the molecular level and application possibilities.
1. Introduction: A new molecular materials and their application in the consumer goods industry and high-tech applications; an overview of the current market situation - industry, products, materials, important to the company, the economy, development outlook; Nanotechnology - the situation in the country and in the world
2. Structure and properties of nanomaterials: basic definition and classification of nanomaterials; nanostructured materials; molecular tailoring - targeted preparation of molecular structures
3. Technology of preparation and methods of nanomaterials: preparation technology of nanomaterials; methods for characterization of nanomaterials; methods of characterization of optoelectronic properties; methods of characterization processes with high temporal resolution
4. Advanced applications of molecular materials: nanoelectronics; printed optoelectronic applications; mechanical application surface (self-cleaning surfaces, protective filters, membranes, ...); sensors; biomaterials; biomolecules and biosystems applications in nanotechnology; Nanomedicine (nanostructured implants, bio-materials for targeted drug delivery, energy applications (organic solar cells, thermoelectric conversion Lion batteries).

Not applicable.

• Programme DKAP_CHM_4 Doctoral

  branch DKAO_CHM_4 , 1. year of study, winter semester, 0 credits, compulsory-optional
  

• Programme DKCP_CHM_4 Doctoral

  branch DKCO_CHM_4 , 1. year of study, winter semester, 0 credits, compulsory-optional
  

• Programme DPAP_CHM_4 Doctoral

  branch DPAO_CHM_4 , 1. year of study, winter semester, 0 credits, compulsory-optional
  

• Programme DPCP_CHM_4 Doctoral

  branch DPCO_CHM_4 , 1. year of study, winter semester, 0 credits, compulsory-optional
  

• Programme DPCP_CHM_4_N Doctoral, 1. year of study, winter semester, 0 credits, compulsory-optional
  
• Programme DKCP_CHM_4_N Doctoral, 1. year of study, winter semester, 0 credits, compulsory-optional
  

26 hours, optionally

prof. Ing. Martin Weiter, Ph.D.