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Challenge

Solar-Driven Chemistry

Solar-Driven Chemistry

Online Challenge
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Our challenge

This course offers students the opportunity to gain knowledge of solar energy, solar cells, solar fuels, and artificial photosynthesis. Part of the course consists of typical lectures and the other part of the course will be resolving a challenge as part of a team provided by Liquid Sun (https://www.liquidsun.co/). The challenge is done completely online and there is no on-site studying.

The Team

PV
Paola Vivo
Teamcher
18 learners
Study format
Online
Application period
1 September – 11 October 2024
Study period
22 October – 5 December 2024
Credits
3 ECTS
Pace
25%
Hosting university
Tampere University
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Learning outcomes

Environmental aspects of solar energy-driven applications

The student will be able to analyze the environmental aspects of solar energy-driven applications.

ESCO SKILLS

Present energy scenario

The student will be able to describe the present energy scenario and explain the need for energy conversion and storage.

ESCO SKILLS

Solar energy conversion

The student will be able to outline the fundamental principles of solar energy conversion.

ESCO SKILLS

Solar energy harnessing technologies

The student will be able to list and explain the various technologies that are used to harness the potential of solar energy (e.g., photovoltaics, solar fuels, storage).

ESCO SKILLS

Chemistry of the materials

The student will be able to explain the function of on the individual components involved in the utilization of solar energy with a focus on the chemistry of the materials.

ESCO SKILLS

Potential progress

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Information

Prerequisites for the course: General chemistry knowledge required (For example: Chemistry for engineers 1 & Chemistry for engineers 2 )

The course deals with important and timely topics devoted to solar energy harvesting, conversion, and storage. The core contents of the course can be summarized as follows:

  1. Global energy scenario and the importance of solar energy
  2. Principles of solar energy conversion and storage
  3. Photovoltaics (inorganic, organic, hybrid, from solar cells to modules)
  4. Conversion of solar energy into chemical energy (e.g., solar fuels)
  5. How to store solar energy – case study: batteries
  6. Chemistry of materials for solar energy conversion and storage
  7. Environmental impact of solar energy technologies
  8. Challenge-based work related to the topics of the course

Hosting university

Tampere University

Tampere University