Czech

Not applicable.

Students will obtain genereal view of conditions of existence of colloidal systems, of properties and preparation of the most important types of those systems and their significance for industrial practice.

Basic physical chemistry, particularly thermodynamics, electrochemistry, and colloid chemistry.

Not applicable.

The course uses teaching methods in form of Lecture - 2 teaching hours per week, Seminar - 1 teaching hour per week. The e-learning system (LMS Moodle) is available to teachers and students.

Attendance is obligatory and may be checked. Studying is checked by active learning activities.
Credits are given on the basis of studenty activity in seminars and written assignments (numerical excercises, reports on practical demonstrations).
Evaluation is based on oral presentation and written exam. The presentation should report on selected topics from applied colloid chemistry in about 10 minutes, clearly presenting and emphasizing specific colloidal aspects and consequences of the selected topic. The presentation is followed by discussion (5 minutes) which can include also theoretical principles of presented topic. The presentation should be sent to the teacher electronically. The subject and its elaboration can be consulted with teacher and finally is presented during lectures. Suitable examples of presentation topics are given during the first lecture. The written exam consists of ten questions which should be answered in one phrase each and within the time limit of 50 min in total. Both parts has the same weight; in evaluation of presentations the technical quality has the weight 70% and the presentation quality 30%.

1. Classification of colloids, their significance in consumer's industry. Intermolecular forces - overview.
2. Intermolecular forces - typology.
3. Intermolecular forces - mathematical treatment.
4. Intermolecular forces between colloidal particles.
5. Formation and preparation of colloids.
6. Stability and stabilization of colloids.
7. Tensides - functions, classes, properties, detergency.
8. Emulsions - structure, properties, preparation, characterization, practical application.
9. Gels - structure, properties, preparation, characterization, practical application.
10. Suspensions - structure, properties, preparation, characterization, practical application.
11. Foams - structure, properties, preparation, characterization, practical application.
12. Aerosols - structure, properties, preparation, characterization, practical application.
13. Adhesion and wetting, adhesive types.

Not applicable.

Aim of the subject is to present theoretical foundations for behaviour of colloid systems and inform on colloids substantial for the applied chemistry from the viewpoint of their preparation, structure and properties.

Attendance is obligatory and may be checked. Studying is checked by active learning activities.

Not applicable.

Not applicable.

Bartovská L., Šišková M.: Fyzikální chemie povrchů a koloidních soustav. VŠCHT, Praha 2005. (CS)

Evans D. F., Wennerström H.: The Colloidal Domain. John Wiley and. Sons, Inc., New York 1997. (EN)
Ščukin E. D., Percov A. V., Amelinová E. A.: Koloidní chemie. Academia, Praha 1990. (CS)