The learning outcomes of this discipline detail the following programmatic learning outcomes:
- knowledge of theoretical and applied aspects of polymer composites and nanocomposites creation;
- knowledge of peculiarities of formation of morphology of structure and properties of polymer composite materials and nanocomposites;
- knowledge of physicochemical methods for studying the structure and properties of (nano) composites.
Skills:
- to solve problems related to theoretical and applied aspects of development of new polymer composites and nanocomposites;
use acquired knowledge to solve modern problems;
- Predict approaches for obtaining the latest polymer composites and nanocomposites with preset physical properties;
- implement measures that contribute to the expansion of the operational and technological properties of polymer (nano) composites;
- predict the properties of polymer composites and nanocomposites from their composition and production conditions;
- to substantiate and predict areas of specific use of polymer composites and nanocomposites according to their properties.

Physico-chemistry of polymers
Polymeric material science
Modern technological processes of processing of polymeric and composite materials
New technologies in the production of high molecular weight compounds
Modification processes in polymer technologies

Modern approaches to physicochemical processes in technology of obtaining composite materials and nanocomposites. General characteristics of nanotechnologies and nanomaterials. General Characteristics of Methods of Obtaining Polymer Composites and Nanocomposites. Special properties of nanomaterials. Chemical nanomaterials. Features of synthesis of nanoparticles. Influence of factors on the shape and size of nanoparticles. Thermodynamics of nanosystems. Nanocatalysis. Fractal aspect of nanosystems. Zero- and one-dimensional nano-objects and systems. One-dimensional nanostructures. 2D nanosystems. Langmuir layers and films. Self-organized layers on a solid surface. Theoretical principles of synthesis of nanostructured composites. Gel-sol and sol-gel methods for the synthesis of nanosized particles. Hybrid organo-mineral mesostructures in the technology of polymer (nano) composites. Electrochemical and electrophoretic deposition of nanostructured polymer films and nanocomposites. Thermoplastic composites of polyolefins with polystyrene and polyamides modified by layered nanoscale inorganic fillers. Influence of the nature of the filler and its modification on the peculiarities of obtaining and properties of composites. Fundamental principles for the preparation of precious metal nanoparticles and nanoceramics for the production of filled composites, incl. porous. Influence of synthesis factors and conditions on nanoparticle sizes and their morphology. The influence of the nature of the stabilizer. Hydrogel (nano) composites filled with mineral and organic fillers. Formation of precious metal nanoparticles and (nano) ceramics during the preparation of (nano) composites. Fungibactericidal properties of (nano) composites. Structure, properties, use. Applied aspects of polymer composites and nanocomposites. Nanomaterials. Biomedical diagnostics. Pharmokinetics and nanotechnology.

1. Suberlyak O., Skorokhoda V., Semenyuk N. Teoretychni osnovy khimiyi ta tekhnolohiyi polimeriv. –L?viv, v-vo NULP, 2015. -345 s.
2. Nanokhimiya, nanosystemy, nanomaterialy / S. V. Volkov, YE. P. Koval?chuk, V. M. Ohenko, O. V. Reshetnyak. – K.: Nauk. Dumka, 2008. – 424 s.- Bibliohr.: s. 389-418 (62 nazvy))
3. Huz? A. N. Vvedenye v mekhanyku nanokompozytov: monohrafyya / A. N. Huz?, YA. YA. Rushchytskyy, Y. A. Huz?. – K: 2010. – 380 s. Byblyohr.: s. 364-374 (196 nazv.))
4. Skorokhod V. V. Fizyko-khimichna kinetyka v nanostrukturnykh systemakh / V. V. Skorokhod, I. V. Uvarova, A. V. Rahulya . – K. : Akademperiodyka, 2001. – 180 s.
5. Zayachuk D. M. Nanotekhnolohiyi i nanostruktury: navch. posib. – L?viv : Vyd-vo nats. un-tu «L?viv. politekhnika», 2009. – 580 s. – Bibliohr.: s. 574-575 (46 nazv))
6. Hrechykhyn L. Y. Nanochastytsy y nanotekhnolohyy / Mynsk. hos. vyssh. avyats. kolledzh. – Mynsk : Pravo y ekonomyka, 2008. - 406 s. – Byblyohr.: s. 391-405 (178 nazv.)
7. Suberlyak O.V., Bashtannyk P.I. Tekhnolohiya pererobky polimernykh ta kompozytsiynykh materialiv. – L?viv.: Rastr-7, 2015. – 456 s.
8. Starostyn, V.V. Materyaly y metody nanotekhnolohyy : ucheb. posobye / V. V. Starostyn. -2-e yzd.-M.: BYNOM. Lab. znanyy, 2010.- 431 c.

Current and final (semester) control. Final control is conducted in the form of an exam.