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34193 Avancerede solcellekoncepter

2017/2018

Kurset afholdes ikke i efteråret 2018.
Kursusinformation
Advanced Concepts in Photovoltaics
Engelsk
5
Ph.d., Servicekursus (faglige færdigheder)
Kurset udbydes under tompladsordningen
Efterår
10.-13. oktober 2017. Kurset afholdes ikke i efteråret 2018.
Risø campus
DTU Campus Risø, Building 130, Frederiksborgvej 399, 4000 Roskilde
Lectures, presentations, and group work and 2 weeks of additional textbook study
[Kurset følger ikke DTUs normale skemastruktur]
Aftales med underviser
Mundtlig eksamen og bedømmelse af rapport(er)
Oral examination and reports
Alle hjælpemidler er tilladt :

All Aid

bestået/ikke bestået , intern bedømmelse
Knowledge within photonics, optics, nanotechnology, chemistry and physics would be beneficiary
Minimum 15 Maksimum: 40
Peter Behrensdorff Poulsen , Risø Campus, Bygning 130, Tlf. (+45) 4677 4572 , ppou@fotonik.dtu.dk
Gisele Alves dos Reis Benatto , Risø Campus, Bygning 130, Tlf. (+45) 4677 5412 , garb@fotonik.dtu.dk
Prof Peter Würfel, Karlsruhe Institute of Technology, Institute of Applied Physics
Prof Peter Balling, Aarhus University
Associate Professor, Morten Madsen, University of Southern Denmark
Associate Professor, Søren Peder Madsen, Aarhus University
Associate Professor, Brian Julsgaard, Aarhus University

34 Institut for Fotonik
33 Institut for Mikro- og Nanoteknologi
47 DTU Energikonvertering
www.solarconf.dk
På instituttet
04-10-2017
Sign up for the summer school by www.solarconf.dk Price for summer school: 2.995 DKK +2000 DKK for accommodation
Dette kursus giver den studerende en mulighed for at lave eller forberede et projekt som kan deltage i DTUs studenterkonference om bæredygtighed, klimateknologi og miljø (GRØN DYST). Se mere på http://www.groendyst.dtu.dk
Overordnede kursusmål
The aim of the course is to introduce the students to advanced concepts in photovoltaics and learn about the latest developments in up-conversion, Thin films, multi-junction tandem solar cells, Perovskites, Organic photovoltaics and advanced characterization methods for photovoltaics.
Læringsmål
En studerende, der fuldt ud har opfyldt kursets mål, vil kunne:
  • Basics of Photovoltaic energy conversion
  • Basics of Semiconductors
  • Generation and recombination of electrons and holes
  • Thermodynamics of solar Cells
  • Driving forces for charge currents in solar cells
  • Getting more out of sunlight by up-conversion
  • Metal-oxide based interfacial layers in PV devices
  • Electromagnetic Wave Propagation, FEM and topology optimization for photovoltaics
  • Multi-junction and tandem solar cells
  • CZTS technology
  • Upconversion in rare-earth-doped materials
  • Perovskites
Kursusindhold
The course is composed of total of 3 weeks. 1 week PhD summer school (including preparation for an oral presentation given by each participants) and 2 weeks study load of textbook reading with corresponding discussion with teachers. Students will be requested to read, at least, 2 weeks prior to the school, all book-chapters and state-of-the-art journals on selected topics by the teachers. The reading material is selected in agreement with the teachers to make the best possible preparation of the students to participate in the Summer School. Students will meet to discuss among themselves and with professors the reading material. The student will give an oral presentation during the Summer School about the research topics of the students PhD project and feedback will be given by teachers and other PhD students. A short report will be requested after the summer school. Lectures will be delivered from teachers at DTU Fotonik, DTU Nanotech and DTU Energy and selected number of top researchers and teachers from world-wide renown Universities; see program at website link www.solarconf.dk.
Litteraturhenvisninger
Peter Würfel: Physics of Solar Cells: From Basic Principles to Advanced Concepts, 2nd Edition and state-of-the-art journal articles.
Sidst opdateret
24. maj, 2018