1. komponenta

Lecture type	Total
Lectures	20

* Load is given in academic hour (1 academic hour = 45 minutes)

THE SCOPE OF THE COURSE
Fundamentals of electrochemical energy sources. Thermodynamics and kinetics of electrode reactions. Design and construction of batteries, fuel cells and supercapacitors. Active electrode materials and their characterization. Development of new electrode materials and composites for high specific energy/high power devices. Modelling and testing of electrochemical energy sources. Techniques for the investigation of electrode properties.

DESCRIPTION
The course will take place at the Faculty of chemical engineering and technology. Every student will have its own assignment in the form of the seminar work.

DESCRIPTION OF THE METHODOLOGY
Teaching methodology will be adjusted individually: lectures, mentoring, lab work.

REQUIREMENTS
Individual projects and assignments need to be made. Tests in the written and oral forms.

EXPECTED RESULTS ON THE LEVEL OF THE COURSE
1. To assess the possibility of applying certain materials for the electrochemical storage and conversion of energy
2. To implement conclusions about the properties of materials based on findings related to the thermodynamics and kinetics of electrode reactions.
3. To create electrochemical experiments for the synthesis and characterization of electrochemically active materials.
4. To analyse and interpret the data obtained in electrochemical experiments.
5. To design new advanced materials and technology that can be used in the development of electrochemical energy converters and storage devices.
6. To calculate characteristic values associated with electrochemical converters and storage devices based on data obtained by electrochemical measurements.


EXPECTED RESULTS ON THE LEVEL OF THE PROGRAM
1. To systemize the knowledge and skills for the scientific field of study.
2. To estimate the skills and the methodology of the theoretical and experimental investigations connected with the particular scientific field and the field of study.


LITERATURE
1. C. Vincent, B. Scrosati, Modern Batteries, Butterworth-Heinemann, 2003
2. B. Scrosati, K. Abraham, W. van Schalkwijk, J. Hassoun, Lithium Batteries: Advanced Technologies and Applications, Wiley, 2013
3. Z. Mandić, predavanja
4. M. Kraljić Roković, predavanja

1. Modern Batteries., C. Vincent, B. Scrosati, Butterworth-Heinemann, 2003.
2. .Lithium Batteries: Advanced Technologies and Applications., B. Scrosati, K. Abraham, W. van Schalkwijk, J. Hassoun, Wiley, 2013.
3. Predavanja, Zoran Mandic,
4. Predavanja, Marijana Kraljić Roković,

D_Temeljni - Regular studij - Chemical Engineering and Applied Chemistry