Ionic Liquids 1200-2MON21L
Structure, methods of synthesis and properties of ionic liquids will be discussed. Studies of physicochemical properties of ionic liquid solutions (miscibility with water and organic solvents, viscosity, excess molar volume and others). Examples of current practical application of ionic liquids in chemistry (organic synthesis), biotechnology, chemical engineering, electrochemistry.
Estimated student workload per semester: 37.5 hours, including:
• 15 hours of class participation
• 7.5 hours of consultations
• 15 hours of exam preparation
Main fields of studies for MISMaP
physics
environmental protection
chemistry
Type of course
Mode
Prerequisites (description)
Course coordinators
Learning outcomes
KNOWLEDGE
After completing the lecture, the student:
K_W01, Has extensive knowledge of the place of chemistry in the system of exact and natural sciences and its importance for the development of humanity.
K_W05, Has in-depth knowledge and skills in the selected chemical specialization, allowing them to use the methods and concepts appropriate for this specialization and enabling independent research.
K_W08, Has advanced knowledge and skills in computational methods appropriate for a given chemical specialization.
K_W10, Has a good understanding of current developments in chemistry and the latest scientific discoveries in a given chemical specialization.
SKILLS
After completing the lecture, the student:
K_U08, Has advanced knowledge and skills enabling them to use professional literature, databases, and other sources of information, and is able to assess the reliability of the information obtained. K_U11, Can discuss the place of chemistry in the system of exact and natural sciences and its importance for the development of our civilization.
COMPETENCIES:
The student is ready to:
K_K01 - Understands the need for and knows the opportunities for continuous learning, is able to independently search for information in literature (including foreign languages) and seek expert advice,
K_K06 - Can think and act in a creative and entrepreneurial manner.
Assessment criteria
Written assessment in the form of open-ended questions. Attendance is mandatory. Maximum number of absences required to achieve the learning outcomes: 1.
Practical placement
there is no apprenticeship
Bibliography
1. P.Wasserscheid, T.Welton (Eds), Ionic Liquids In Synthesis, Wiley-VCh, Weinheim 2003
2. R. D.Rogers, K.R.Seddon (Eds), Ionic Liquids: Fundamentals, Progress, Challenges and Opportunities, ACS , Washington DC, 2005
Additional information
Additional information (registration calendar, class conductors, localization and schedules of classes), might be available in the USOSweb system: