Fakultät für Physik




Hauptseminar: Green Energy Seminar – Overview

  • Overview

Seminar: Solar Cells to Solar Fuels - from basics to applications (Master/Diploma)

About the lecture

Time and place

Wednesdays 1:30pm - 3:00 pm CET, seminar room L204

Rising atmospheric levels of carbon dioxide and the depletion of fossil fuel reserves raise serious concerns about the ensuing effects on the global climate and future energy supply. Utilizing the abundant solar energy to produce electricity or to drive artificial photosynthetic reaction to convert water and carbon dioxide into fuels are potential solutions to both energy harvesting and storage. The Seminar will cover four main topics. Firstly, the current status of the energy supply from non-renewable (fossil, nuclear) and renewable sources will be discussed in relation to sustainability, waste management, environmental effects and challanges to they impose on the grid architecture. The second part will cover solar cells: architecture, light harvesting, charge separation, efficiency limitations and new materials (including perovskite solar cells).

Solar fuel cycleThe third part will cover natural photosynthesis, in particular light harvesting and charge transport. The fourth part will focus on heterogeneous solar fuel generation with nanocrystalline semiconductor particles, starting from thermodynamic and kinetic aspects of photocatalysis, through photosensitization to semiconductor-based photocatalysts for hydrogen generation via water reduction, full water splitting and carbondioxide reduction. The architecture, limitations and figures of merit for photocatalytic and photoelectrocatalytic systems will also be discussed. This topic will also include plasmonic sensitization and hot electron injection mechanism for driving photocatalytic reactions.

PhotocatalysisThe seminar addresses in particular master students which have followed the lecture EM1 - Advanced Solid State Physics, but is not exclusively for these students.


1. Non-renewable and renewable energy supply (26 October 2016)
2. Solar cells: p/n junction and loss mechanisms in solar cells (2 November 2016)
3. Solar cells: Silicon solar cells and dye-sensitized solar cells
4. Solar cells: All organic and hybrid solar cells
5. Solar cells: Organolead halide perovskite - thin films and applications in solar cells
6. Solar cells: Organolead halide perovskite - charge transfer, ferroelectricity and hysteresis
7. Organolead halide perovskite - nanocrystals and light emitting properties
8. Light harvesting in nature, photosynthesis
9. Heterogeneous catalysis photocatalysis - thermodynamics and figures of merit
10. Photocatalytic H2 generation and watersplitting with semiconductor nanocrystals
11. Photocatalytic CO2 reduction
12. Photoelectrochemical cells
13. Plasmonic sensitization and hot electrons

The seminar will be credited if:

(a) a presentation is given,
(b) all presentations (missing 3 at most) have been attended,
(c) the student actively participated in discussions


Dr. Jacek Stolarczyk, email: jacek.stolarczyk(at)physik.uni-muenchen.de
Prof. Dr. Jochen Feldmann, email: feldmann(at)lmu.de





Verantwortlich für den Inhalt: Jacek Stolarczyk