Organic Solar Cells - Theory and Practice

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Course Date: 01 September 2014 to 13 October 2014 (6 weeks)

Price: free

Course Summary

Learn about a new generation of solar cells, organic solar cells, that promise an answer to the energy demands of the future.


Estimated Workload: 3-6 hours/week

Course Instructors

Eva Bundgaard

Dr. Eva Bundgaard is a senior scientist at DTU Energy Conversion in the section of solar energy. Eva has been doing research in the field of polymer solar cells since 2004 with main focus on materials for the active layer. Eva has published 34 papers in the field.

Frederik Krebs

Dr. Frederik Krebs is a professor and head of section of the Solar Energy group at DTU Energy Conversion. Frederik has done research in the field of organic solar cells for more than a decade and his main research interest is stability, material research and more recently large scale processing. He has published more than 300 papers in the field and is recognized throughout the international community of organic photovoltaics for great results.

Mikkel Jørgensen

Dr. Mikkel Jørgensen is a senior scientist at DTU Energy Conversion in the section of solar energy. Mikkel has been doing research in the area of polymer solar cells for more than a decade with main focus areas on materials, stability and processing. Mikkel has published 120 papers in the field.

Morten Madsen

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Course Description

The goal of the course is to give students awareness of the largest alternative form of energy and how organic / polymer solar cells can harvest this energy. The course provides an insight into the theory behind organic solar cells and describes the three main research areas within the field i.e. materials, stability and processing.

FAQ

  • Will I get a Statement of Accomplishment after completing this class?

    Yes. Students who successfully complete the class will receive a Statement of Accomplishment signed by the instructor.

  • What resources will I need for this class?

    For this course, all you need is an Internet connection and the time to read, write, and discuss.

  • What are organic solar cells?

    Organic solar cells also known as organic photovoltaic devices (OPV) are a type of solar cell that uses organic electronics. Subcategories of organic solar cells include polymer solar cells and small molecule solar cells.

  • What is roll to roll fabrication?

    In the field of electronic devices, roll to roll processing, also known as web processing, reel-to-reel processing or R2R, is the process of creating devices on a roll of flexible plastic or metal foil. This includes any coating and printing processes that are roll to roll compatible.

Syllabus

  • Week 1: Introduction to solar energy and the three generations of solar cells combined with an introduction to life cycle analysis for solar cells.
  • Week 2: Working principles of organic photovoltaics, how to measure and characterize organic solar cells and finally the application of organic solar cells.
  • Week 3: Materials for organic solar cells with focus on the active layer including common polymer materials, fullerenes, and low bandgap polymers.
  • Week 4: Stability and lifetime of organic and polymer solar cells.
  • Week 5: Production of organic solar cells with focus on roll to roll processes, coating, printing, and up-scaling.
  • Week 6: The future of organic solar cells and final exam.

Format

The class will consist of lecture videos, which are between 8 and 12 minutes in length. These contain 1-2 integrated quiz questions per video. There will also be homework that is not part of the video lectures, and a final exam.

Suggested Reading

The reading material for the course will consist of a number of scientific articles, which will all be open access. In addition we will publish material on http://plasticphotovoltaics.org. All the material will be made available during the course.

We also encourage students to order a free solar cell at http://plasticphotovoltaics.org/free-opv. This solar cell is a polymer solar cell made using roll to roll coating.

Course Workload

3-6 hours/week

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