- Docente: Angela Gondolini
- Credits: 4
- SSD: CHIM/04
- Language: Italian
- Teaching Mode: Traditional lectures
- Campus: Ravenna
- Corso: First cycle degree programme (L) in Chemistry and Technologies for the Environment and Materials (cod. 8515)
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from Feb 20, 2025 to Apr 11, 2025
Learning outcomes
Aim of the course is to acquire skills on the main oxidic materials synthesis methods, shaping technologies and on the complete characterization of powders and suspensions for renewable energy device development. All the phases that lead to the development of materials and devices for energy will be addressed, starting from the most used methods for powder preparation (i.e. nanometric size), passing through film deposition processes (such as screen printing, tape casting, inkjet) till the production and assembly of the final devices. At the end of the course the student will be able to evaluate the influence of the different process parameters on the properties and structural characteristics of the produced components and devices. The technological transfer from laboratory to industrial scale is also considered. The understanding of the applicative aspects and drawbacks related to the development of these devices will be favored by frequent visits to the National Research Council laboratories where applied research and industrial transfer in this area are carried out.
Course contents
• Introduction to the energy system, renewable energies and energy transition.
• Material synthesis: Powder synthesis methods for energy applications.
• Development of devices: fuel cells-solid oxide electrolysers (SOC). Preparation of colloidal suspensions for processes. Suspensions characterization. Tape casting and screen printing processes. Solid oxide cells: introduction to the technology, applications for energy production and hydrogen storage.
Laboratories: Rheology of suspension and powder characterization. Tape casting and screen printing for the production of a solid oxide cell.
• Device development: third generation solar cells (DSSC). Inkjet printing and spin-coating processes. Third generation solar cells and theoretical principle. New generation photovoltaics: cells, modules and DSSC fiber.
Laboratories: Production of thin films by inkjet printing or spin-coating. Development and functional characterization of a third generation cell.
Readings/Bibliography
Slides provided by the teacher, no purchase of any text is necessary.
Useful bibliography:
-James S. Reed. Principle of Pottery Making, 2nd Edition. Wiley, 1995.
- San Ping Jiang, Qingfeng Li. Introduction to fuel cells, electrochemistry and materials. Springer, 2022.
Teaching methods
The lessons will be carried out in collaboration with Dr. Nicola Sangiorgi and dr. Alex Sangiorgi.
Frontal lessons with the support of electronic presentations.
Use of energy technology prototypes to understand the operating principles.
Practical laboratory experiences and workgroup.
Assessment methods
The exam is done through a final test aimed at ascertaining the expected acquisition of knowledge and skills. The final exam consists of an oral test.
Teaching tools
The course takes place through lessons and exercises carried out in the classroom with online connection. These activities also make use of media such as power point presentations, videos and graphics tablets; all the teaching material presented is accessible to students on the teaching application https://virtuale.unibo.it/.
Office hours
See the website of Angela Gondolini
SDGs
This teaching activity contributes to the achievement of the Sustainable Development Goals of the UN 2030 Agenda.