Synthesis of Battery Materials
Course, Master's level, 1KB729
Spring 2025 Spring 2025, Uppsala, 33%, On-campus, English Only available as part of a programme
- Location
- Uppsala
- Pace of study
- 33%
- Teaching form
- On-campus
- Instructional time
- Daytime
- Study period
- 20 January 2025–23 March 2025
- Language of instruction
- English
- Entry requirements
-
120 credits in science/engineering including 60 credits in chemistry and/or chemical engineering. Either (1) Participation in both Introduction to Energy Storage and Materials Chemistry for Batteries or (2) Materials Chemistry 10 credits and participation in Materials and Manufacturing Processes I. Proficiency in English equivalent to the Swedish upper secondary course English 6.
- Application deadline
- 15 October 2024
- Application code
- UU-66538
Admitted or on the waiting list?
- Registration period
- 20 December 2024–19 January 2025
- Information on registration from the department
Spring 2025 Spring 2025, Uppsala, 33%, On-campus, English For exchange students
- Location
- Uppsala
- Pace of study
- 33%
- Teaching form
- On-campus
- Instructional time
- Daytime
- Study period
- 20 January 2025–23 March 2025
- Language of instruction
- English
- Entry requirements
-
120 credits in science/engineering including 60 credits in chemistry and/or chemical engineering. Either (1) Participation in both Introduction to Energy Storage and Materials Chemistry for Batteries or (2) Materials Chemistry 10 credits and participation in Materials and Manufacturing Processes I. Proficiency in English equivalent to the Swedish upper secondary course English 6.
Admitted or on the waiting list?
- Registration period
- 20 December 2024–19 January 2025
- Information on registration from the department
About the course
The course will give an overview of materials synthesis methods of relevance for battery-related materials. This includes solid-state synthesis, solution-based synthesis, surface coating and treatment, polymers, nanoparticles and nanostructured materials and porous compounds. The advantages and disadvantages of different synthesis approaches for battery materials will be addressed and you will gain hands-on experience in the synthesis of a key battery material via multiple routes.
Reading list
No reading list found.
Contact
- Chemistry education office
- kursexp@kemi.uu.se
- +46 18 471 37 10, +46 18 471 37 11