JUNE 8-13, 2014 • DENVER, COLORADO
73
(133-C47)
Sulfurization Approach Using Sulfur Vapor,
Graphite Box and H2S gas Atmospheres for Co-sputtered
Cu2ZnSnS4 Thin Film.
Arun Khalkar
1
, Kwang-Soo Lim
1
,
Seong-Man Yu
1
, Jin Hyeok Kim
2
, Ji-Beom Yoo
1
.
1
SKKU
Advanced Institute of Nanotechnology (SAINT), Sungkyunkwan
University, Suwon, Korea,
2
Department of Materials Science
and Engineering, Chonnam National University, Gwangju,
Korea.
(134-D2)
Multi-Stage co-evaporation process for active
Ga gradient control in CIGS solar cells.
Torben Klinkert
1,2,3
,
Marie Jubault
1,2,3
, Frederique Donsanti
1,2,3
, Daniel Lincot
1,2,3
,
Jean-François Guillemoles
1,2,3
.
1
EDF R&D, Institute of Research
and Development on Photovoltaic Energy (IRDEP), Chatou,
France,
2
CNRS, IRDEP, UMR 7174, Chatou, France,
3
Chimie
ParisTech, IRDEP, Chatou, France.
(135-D5)
Raman investigation of epitaxial Cu2ZnSnSe4
layers from annealed Sn/Cu/ZnSe(001) precursors on
GaAs(001).
Christoph Krämmer
1
, Mario Lang
1
, Johannes
Sachs
1
, Lukas Pfaffmann
2
, Chao Gao
1
, Dagmar Gerthsen
2
,
Heinz Kalt
1
, Michael Powalla
3
, Michael Hetterich
1
.
1
Institute
of Applied Physics, Karlsruhe Institute of Technology (KIT),
Karlsruhe, Germany,
2
Laboratory for Electron Microscopy,
Karlsruhe Institute of Technology (KIT), Karlsruhe,
Germany,
3
Light Technology Institute, KIT, and Zentrum
für Sonnenenergie- und Wasserstoff-Forschung Baden-
Württemberg (ZSW), Stuttgart, Germany.
(136-D8)
Defects in Cu2ZnSn(S,Se)4 solar cells
investigated by Photoluminescence, Admittance and IVT.
Sergiu Levcenco
1
, J Just
1
, G Larramona
2
, S Bourdais
2
, G
Dennler
2
, T Unold
1
.
1
Helmholtz-Zentrum Berlin für Materialien
und Energie, Berlin, Germany,
2
IMRA Europe S.A., SSophia
Antipolis, France.
(137-D11)
The Importance of Selenium Partial Pressure
in the Laser Annealing of CuInSe2 Precursors.
Helene
J. Meadows
1
, David Regesch
2
, Sudhajit Misra
3
, Brian
J. Simonds
4
, Mike A. Scarpulla
3,4
, Viktor Gerliz
5
, Levent
Gütay
5
, Phillip J. Dale
1
.
1
Laboratory for Energy Materials,
University of Luxembourg, Belvaux, Luxembourg,
2
Laboratory
for Photovoltaics, University of Luxembourg, Belvaux,
Luxembourg,
3
Electrical and Computer Engineering, University
of Utah, Salt lake City, UT, USA,
4
Materials Science and
Engineering, University of Utah, Salt lake City, UT, USA,
5
Laboratory for Chalcogenide Photovoltaics, University of
Oldenburg, Oldenburg, Germany.
(138-D14)
Flexible CZTS Solar Cells on Flexible Corning®
Willow® Glass Substrates.
Chien-Yi Peng
1,2
, Tara P.
Dhakal
2,3
, Pravakar Rajbhandari
2,3
, Sean M. Garner
4
, Patrick
Cimo
4
, Susan Lu
1
, Charles R. Westgate
2,3
.
1
Department of
Systems Science and Industrial Engineering, Binghamton
University, Binghatmon, NY, USA,
2
Center for Autonomous
Solar Power (CASP), Binghamton University, Binghamton, NY,
USA,
3
Department of Electrical and Computer Engineering,
Binghamton University, Binghamton, NY, USA,
4
Corning
Incorporated, Corning, NY, USA.
(139-D17)
In-Situ Cu(In,Ga)Se2 Composition Control
by Optical Emission Spectroscopy During Hybrid Co-
Sputtering/Evaporation Process.
Jorge Posada
1
, Marie
Jubault
1
, Angélique Bousquet
2
, Eric Tomasella
2
, Daniel Lincot
1
.
1
Institute of Research & Development of the Photovoltaic
Energy (IRDEP), EDF - CNRS - Chimie ParisTech UMR 7174,
Chatou, France,
2
Institute of Chemistry of Clermont-Ferrand
(ICCF), UMR CNRS 6926 – Université Blaise Pascal, Aubière,
France.
TECHNICAL PROGRAM
