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Analytics for Photovoltaics W21/22
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Description

Goal of the course is to

  • understand the fundamental limits of solar energy conversion.
  • know about the used materials and their electronic properties as well as the relevant technologies.
  • be able to identify relevant characterization techniques for the analysis of specific material and device properties.
  • understand the physical limits of the various characterization techniques.

The course will be held in English and addresses master and PhD students in physics, chemistry, and physical chemistry. Successful participation in the course and passing the oral exam is rewarded with a total of 10 ECTS credit points.

Main Topics of the Course

A. Photovoltaics

  • Introduction to the basics of semiconductor physics
  • Introduction to the basic principles of photovoltaic (PV) energy conversion
  • Materials and concepts for PV including silicon, chalcopyrites, CdTe, OPV, DSSC, perovskites, novel concepts (3rd generation), …

B. Analytics

  • Basics of spectroscopy (light sources, detectors, spectral analysis…)
  • Electrical characterization of PV devices (I-V, EQE, electroluminescence,...)
  • Optical characterization (UV-VIS, PL, IR, and Raman spectroscopy, Ellipsometry ...)
  • Electrical Material Characterization (Photoconductivity, Hall Effect, time-of-flight, capacitance spectroscopy…)
  • Structure and stoichiometry (NMR, XRD, XRF, RBS, AES, SEM, TEM, Neutron scattering…)
  • Surfaces and Interfaces (XPS, UPS, ARPES, STM, AFM…)
  • Defects (Electron Paramagnetic Resonance, Positron Annihilation, Muon Spin Rotation, LBIC, EBIC, Thermography…)

For further information, please contact Prof. Dr. Klaus Lips:

Tel.: 030 8062 14960

e-mail: lips@helmholtz-berlin.de


Literatur

  1. Thomas Dittrich: Materials Concepts For Solar Cells (Second Edition), World Scientific 2018
  2. Christiana Honsberg and Stuart Bowden http://www.pveducation.org/pvcdrom
  3. Peter Würfel: "Physics of Solar Cells", Wiley-VCH 2005 bzw deutscher Titel: "Physik der Solarzellen"
  4. Martin A. Green: "Solar cells : operating principles, technology and system applications", Kensington, N.S.W. : University of New South Wales, 1986
  5. "Advanced Characteization Techniques for Thin Film Solar Cells" edited by D. Abou-Ras, T. Kirchartz, U. Rau, Wiley-VCH 2011
  6. Hans Kuzmany: "Solid-State Spectroscopy" Springer Verlag 2009

Zusätzliche Informationen

Lectures will be held in English. Prerequisite to participate in the course is a sound understanding of solid state physics.
Basic Course Info
Course No Course Type Hours
20106101 Vorlesung 4
20106102 Übung 2
Time Span 19.10.2021 - 18.02.2022
Instructors
Klaus Lips
Gianluca Marcozzi
Study Regulation
0352c_MA120 2020, MSc Physik (Mono), 120 LP

Analytics for Photovoltaics W21/22
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Main Events
Day Time Location Details
Tuesday 10-12 1.3.21 Seminarraum T1 2021-10-19 - 2022-02-15
Friday 10-12 1.3.21 Seminarraum T1 2021-10-22 - 2022-02-18
Accompanying Events
Day Time Location Details
Tuesday 12-14 1.3.21 Seminarraum T1 Übung 01

Analytics for Photovoltaics W21/22
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Most Recent Announcement

2021-10-29:  Strat of seminar of AfPV has been shifted to 14:15

Dear all,

 

just to keep everyone on the same page, we have decided to move the slot of the seminar on Tuesday from 12:25-14h to 14:15-16h.

The seminar will be held online only, just like the lecture.

Best wishes

Klaus Lips



Published by: Klaus Lips
Older announcements
2021-10-29
Published by: Klaus Lips
Code of conduct for online lecturing at Freie Universität Berlin

Dear all,

 

find attached the code of conduct for online lecturing at FUB, both in German and English (one document). You are requested to follow that code throughout all the online lecturing at FUB.

 

Best wishes,

Klaus Lips

2021-10-18
Published by: Klaus Lips
Introduction lecture Tuesday , 19.10. at 10:15h through Zoom

Dear All,

the lectures will, if possible be held in an hybrid format. The first lecture on Tuseday 19.10. will be ONLINE ONLY. You can join under the following link

Join Zoom Meeting
https://utah.zoom.us/j/99837623244

Meeting ID: 998 3762 3244
Passcode: 081411

 

 

 

Analytics for Photovoltaics W21/22
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