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Prof. Dr. Susanne Siebentritt
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| Faculté ou Centre | Faculté des Sciences, des Technologies et de Médecine | ||||||
| Department | Département Physique et sciences des matériaux | ||||||
| Adresse postale |
Laboratory for photovoltaics 41, rue du Brill L-4422 Belvaux |
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| Bureau sur le campus | CRP Lippmann Belval, 1.147-1 | ||||||
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| Téléphone | (+352) 46 66 44 6304 | ||||||
Susanne Siebentritt is a physics professor and heads the laboratory for photovoltaics at the University of Luxembourg.
Her research interest is twofold: the development of new thin film solar cells and the semiconductor physics of the materials used in these cells.
She studied physics at the University of Erlangen and received her doctoral degree from the University of Hannover.After several postdoc positions at the University of Los Angeles, the Free University of Berlin and the Hahn-Meitner-Institute (now Helmholtz-Zentrum Berlin), she led a group at Hahn-Meitner-Institute for nearly 10 years, which focused on the physics of chalcopyrite solar cells.
In 2007 she moved to Luxembourg and built up the laboratory for photovoltaics.
She is the author of more than 160 peer reviewed publications, with more than 3000 independent citations. In 2014 she received the FNR Outstanding Publication Award, together with three co-authors. In 2015 she was awarded the "Grand Prix en Sciences Physique – Prix Paul Wurth" of the Luxembourgish Institut Grand Ducal. She is a regular topical organiser at the international photovoltaics conferences in Europe and the US. She is a member and vice chair of the scientific council of Science Europe. Since 2016 she is a board member for the Kopernikus projects, a 10 years research programme for the energy transition of the German Ministry of Education and Research.
Last updated on: mardi 04 octobre 2016
Information on my research interests is found on our group's webpage LPV
Since 2007:
Professor at the University of Luxembourg
Head of Laboratory for Photovoltaics
1998 – 2007
Hahn-Meitner-Institute (now Helmholtz-Zentrum Berlin)
Head of MOVPE group
solar cells, epitaxy and defect spectroscopy at chalcopyrites
1996 – 1998
Hahn-Meitner-Institute (now Helmholtz-Zentrum Berlin)
postdoc
ETA solar cells (extremely thin absorber)
1994-1996
Free University Berlin
postdoc
vibrational spectroscopy of metal and graphite surfaces
1993-1994
University of California, Los Angeles
postdoc
pulsed laser deposition of metastable semiconductor alloys
1989 – 1993
Institut for solar energy research (ISFH), Hannover/ University of Hannover
PhD student
organic solar cells, carrier generation and transport mechanisms in zinc phthalocyanine
Last updated on: 04 oct 2016
2021
Lifetime, quasi-Fermi level splitting and doping concentration of Cu-rich CuInS2 absorbers; ; ;
in Materials Research Express (2021), 8
The effect of KF post-deposition treatments on the optoelectronic properties of Cu(In,Ga)Se2 single crystals; ; ; ; ; ;
in Solar RRL (2021)
Carrier recombination mechanism and photovoltage deficit in 1.7-eV band gap near-stoichiometric Cu(In,Ga)S2; ; ; ; ; ; ; ;
in Physical Review Materials (2021), 5
Over 15% efficient wide-band-gap Cu(In,Ga)S2 solar cell: Suppressing bulk and interface recombination through composition engineering; ; ; ; ; ; ; ; ; ;
in Joule (2021), 5
Passivating Surface Defects and Reducing Interface Recombination in CuInS2 Solar Cells by a Facile Solution Treatment; ; ; ; ; ; ; ;
in Solar RRL (2021)
Near surface defects: Cause of deficit between internal and external open-circuit voltage in solar cells; ; ; ; ; ; ; ;
in Progress in Photovoltaics (2021)
How band tail recombination influences the open-circuit voltage of solar cells.; ; ; ; ; ; ; ; ; ;
in Progress in Photovoltaics (2021)
2020
Chemical instability at chalcogenide surfaces impacts chalcopyrite devices well beyond the surface; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ;
in Nature Communications (2020)
Passivation of the CuInSe2 surface via cadmium pre-electrolyte treatment; ; ; ; ; ; ; ;
in Physical Review Materials (2020)
Photoluminescence-Based Method for Imaging Buffer Layer Thickness in CIGS Solar Cells; ; ; ; ; ; ; ; ;
in IEEE Journal of Photovoltaics (2020)
Heavy Alkali Treatment of Cu(In,Ga)Se2 Solar Cells: Surface versus Bulk effects; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ;
in Advanced Energy Materials (2020)
Absorber composition: A critical parameter for the effectiveness of heat treatments in chalcopyrite solar cells; ; ; ; ; ; ;
in Progress in Photovoltaics (2020)
Thin-film (Sb,Bi)2Se3 Semiconducting Layers with Tunable Band Gaps Below 1 eV for Photovoltaic Applications; ; ; ; ; ; ; ;
in Physical Review Applied (2020), 14
Oxidation as Key Mechanism for Efficient Interface Passivation in Cu(In,Ga)Se2 Thin-Film Solar Cells; ; ; ; ; ; ;
in Physical Review Applied (2020)
Ultra-thin passivation layers in cu(in,Ga)Se2 thin-film solar cells: full-area passivated front contacts and their impact on bulk doping; ; ; ; ;
in Scientific Reports (2020)
2019
The hunt for the third acceptor in CuInSe2 and Cu(In,Ga)Se2 absorber layers; ; ; ;
in Journal of Physics: Condensed Matter (2019), 31
"Keine Schwarzseher" Forscher der Universität Luxemburg unterstützen Jugendliche von "Fridays for Future"; ; ; ; ;
Article for general public (2019)
Challenge in Cu-rich CuInSe2 thin film solar cells: Defect caused by etching; ; ; ; ; ;
in Physical Review Materials (2019), 3
Quasi-Fermi-Level Splitting of Cu-Poor and Cu-Rich CuInS2 Absorber Layers; ; ; ; ; ;
in Physical Review Applied (2019), 11
Surface characterization of epitaxial Cu-rich CuInSe2 absorbers; ; ; ; ;
in IEEE Photovoltaic Specialists Conference. Conference Record (2019, July)
Variable chemical decoration of extended defects in Cu-poor Cu2ZnSnSe4 thin films; ; ; ; ; ;
in Physical Review Materials (2019), 3
Electronic defects in Cu(In,Ga)Se2: Towards a comprehensive model; ; ; ; ; ; ;
in Physical Review Materials (2019), 3
Excitation-intensity dependence of shallow and deep-level photoluminescence transitions in semiconductors; ; ; ;
in Journal of Applied Physics (2019)
Time-resolved photoluminescence on double graded Cu(In,Ga)Se2 – Impact of front surface recombination and its temperature dependence; ; ; ; ; ; ;
in Science and Technology of Advanced Materials (2019), 20
Can we see defects in capacitance measurements of thin‐film solar cells ?; ; ;
in Progress in Photovoltaics (2019), 27
2018
The Optical Diode Ideality Factor Enables Fast Screening of Semiconductors for Solar Cells; ;
in Solar RRL (2018), 1800248
Potassium fluoride postdeposition treatment with etching step on both Cu-rich and Cu-poor CuInSe2 thin film solar cells; ; ; ;
in Physical Review Materials (2018), 2(10), 105405
Sodium enhances indium-gallium interdiffusion in copper indium gallium diselenide photovoltaic absorbers; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ;
in Nature Communications (2018)
High‐performance low bandgap thin film solar cells for tandem applications; ; ; ;
in Progress in Photovoltaics (2018)
Influence of stoichiometry and temperature on quasi Fermi level splitting of sulfide CIS absorber layers; ;
in 2018 IEEE 7th World Conference on Photovoltaic Energy Conversion, WCPEC 2018 - A Joint Conference of 45th IEEE PVSC, 28th PVSEC and 34th EU PVSEC (2018, November 29)
Investigation on the Angle and Spectral Dependence of the Internal and the External Quantum Efficiency of Crystalline Silicon Solar Cells and Modules; ;
in IEEE Journal of Photovoltaics (2018)
Absorption Coefficient of a Semiconductor Thin Film from Photoluminescence; ; ; ; ; ; ; ;
in Physical Review Applied (2018), 9
Interdiffusion and Doping Gradients at the Buffer/Absorber Interface in Thin-Film Solar Cells; ; ; ; ;
in ACS Applied Materials and Interfaces (2018), 10
Buffer Layers, Defects, and the Capacitance Step in the Admittance Spectrum of a Thin-Film Solar Cell;
in Physical Review Applied (2018), 9
Alkali treatments of Cu(In,Ga)Se2 thin‐film absorbers and their impact on transport barriers; ; ; ; ; ; ; ; ; ; ;
in Progress in Photovoltaics (2018)
Influence of Sodium and Rubidium Postdeposition Treatment on the Quasi-Fermi Level Splitting of Cu(In,Ga)Se2 Thin Films; ; ; ; ; ;
in IEEE Journal of Photovoltaics (2018)
2017
Innovation highway: Breakthrough milestones and key evelopments in chalcopyrite photovoltaics from a retrospective viewpoint; ; ; ; ; ; ; ; ; ;
in Thin Solid Films (2017), 633
Better Cu(In,Ga)Se2 solar cells based on surface treated stoichiometric absorbers; ; ;
in Physica Status Solidi A. Applications and Materials Science (2017), 214, No. 1
Potassium fluoride ex-situ treatment on both Cu-rich and Cu-poor CuInSe2 thin film solar cells; ; ; ; ;
in IEEE Journal of Photovoltaics (2017), 7(2), 684-689
Improved environmental stability of highly conductive nominally undoped ZnO layers suitable for n-type windows in thin film solar cells; ; ; ; ; ; ; ;
in Solar Energy Materials & Solar Cells (2017), 161
A Novel Fast Process for Zn(O,S) Buffer Layers, Doped With Al and B and Deposited on CIGSSe Solar Cells; ; ; ; ;
in IEEE Journal of Photovoltaics (2017), 7
On the origin of band-tails in kesterite; ; ; ; ; ; ;
in Solar Energy Materials and Solar Cells (2017)
Chalcopyrite compound semiconductors for thin film solar cellsin Current Opinion in Green and Sustainable Chemistry (2017)
What is the dopant concentration in polycrystalline thin-film Cu(In,Ga)Se2 ?; ; ;
in Thin Solid Films (2017), 633
Correcting for interference effects in the photoluminescence of Cu(In,Ga)Se2 thin films; ; ; ; ;
in Physica Status Solidi C. Current Topics in Solid State Physics (2017), 14, no 6
Space-charge-limited currents in CIS-based solar cells; ; ; ;
in Applied Physics Letters (2017), 111
2016
Quasi Fermi level splitting of Cu-rich and Cu-poor Cu(In,Ga)Se2 absorber layers; ;
in Applied Physics Letters (2016), 109
Study on the quasi Fermi level splitting of Cu(In,Ga)Se2 absorber layers with Cu-rich and Cu-poor composition; ;
in IEEE Photovoltaic Specialists Conference. Conference Record (2016)
Electrical Characterization of Defects in Cu-Rich Grown CuInSe2 Solar Cells; ;
in IEEE Journal of Photovoltaics (2016), 6(2), 546-551
Is the Cu/Zn disorder the main culprit for the voltage deficit in kesterite solar cells?; ; ; ; ; ; ; ; ; ;
in Advanced Energy Materials (2016), 6 - 15002276
Transparent conductive CuCrO2 thin films deposited by pulsed injection metal organic chemical vapor deposition: up-scalable process technology for an improved transparency/conductivity trade-off; ; ; ; ; ;
in Journal of Materials Chemistry C (2016)
Environmental stability of highly conductive nominally undoped ZnO layers; ; ; ; ; ; ;
in IEEE Photovoltaic Specialists Conference. Conference Record (2016), 978-1-5090-2724
Improved Chemically Deposited Zn(O,S) Buffers for Cu(In,Ga)(S,Se)2 Solar Cells by Controlled Incorporation of Indium.; ; ;
in IEEE Journal of Photovoltaics (2016), 6(1),
Ordering kesterite improves solar cells:A low temperature post-deposition annealing study; ; ; ; ; ; ; ; ;
in Solar Energy Materials & Solar Cells (2016), 151
Cu–Zn disorder and band gap fluctuations in Cu2ZnSn(S,Se)4: Theoretical and experimental investigations; ; ; ; ; ;
in Physica Status Solidi B. Basic Research (2016), 253(2), 247-254
Photoluminescence studies in epitaxial CZTSe thin films; ; ; ; ; ; ;
in Journal of Applied Physics (2016), 120
Revisiting radiative deep-level transitions in CuGaSe2 by photoluminescence; ;
in Applied Physics Letters (2016), 109
Impact of annealing on electrical properties of Cu2ZnSnSe4 absorber layers; ; ; ; ; ; ;
in Journal of Applied Physics (2016), 120
2015
Cu-rich CuInSe2 solar cells with a Cu-poor surface; ; ; ; ; ;
in PROGRESS IN PHOTOVOLTAICS (2015), 23
Detection of a MoSe2 secondary phase layer in CZTSe by spectroscopic ellipsometry; ; ; ; ; ; ;
in JOURNAL OF APPLIED PHYSICS (2015), 118
Alternative etchning for improved Cu-rich CuInSe2 solar Cells; ; ; ; ;
in Materials Research Society Symposia Proceedings (2015), 1771
Multiple phases of Cu2ZnSnSe4 detected by room temperature photoluminescence (vol 116, 073509, 2014); ; ; ;
in JOURNAL OF APPLIED PHYSICS (2015), 118(8),
Highly conductive ZnO films with high near infrared transparency; ; ; ; ; ; ; ; ;
in Progress in Photovoltaics: Research and Applications (2015)
A comparative study of the annealing behavior of Cu(In, Ga)(S, Se)2 based solar cells with an indium sulfide buffer layer, partly submitted to wet chemical treatments; ; ; ; ;
in Journal of Applied Physics (2015), 117
Diffuse Electroreflectance of thin-film solar cells: Suppression of interference-related lineshape distortions; ; ; ; ; ; ;
in Applied Physics Letters (2015), 107
Different Bandgaps in Cu2ZnSnSe4: A High Temperature Coevaporation Study; ; ; ; ; ;
in IEEE Journal of Photovoltaics (2015), 5(2), 641-648
Atom probe tomography study of internal interfaces in Cu2ZnSnSe4 thin-films; ; ; ; ; ;
in Journal of Applied Physics (2015), 118
Detection of Cu2Zn5SnSe8 and Cu2Zn6SnSe9 phases in co-evaporated Cu2ZnSnSe4 thin-films; ; ; ; ; ; ; ;
in Applied Physics Letters (2015), 107
Thin film solar cells – success, challenges and perspectivesScientific Conference (2015, January 22)
2014
Discrimination and determination of secondary phases from a Cu2ZnSnS4 phase using X-ray diffraction and Raman spectroscopy; ; ; ; ; ; ; ; ;
in Thin Solid Films (2014), 569
Simplified formation process for Cu2ZnSnS4-based solar cells; ; ; ; ; ; ; ;
in Thin Solid Films (2014), 573
In-Se surface treatment of Cu-rich grown CuInSe2; ;
in Proceedings of the IEEE Photovoltaic Specialist Conference 2014 (2014)
CHAPTER 5: Thin-film Photovoltaics Based on Earth-abundant Materials; ; ; ;
in Nozik, Arthur J.; Beard, Matthew C.; Conibeer, Gavin (Eds.) Advanced Concepts in Photovoltaics (2014)
The influence of Se pressure on the electronic properties of CuInSe2 grown under Cu-excess; ; ; ;
in Applied Physics Letters (2014), 105
Current loss due to recombination in Cu-rich CuInSe2 solar cells; ; ; ; ;
in JOURNAL OF APPLIED PHYSICS (2014), 115
Multiple phases of Cu2ZnSnSe4 detected by room temperature photoluminescence; ; ; ;
in Journal of Applied Physics (2014), 116
Composition dependent characterization of copper indium diselenide thin film solar cells synthesized from electrodeposited binary selenide precursor stacks; ; ; ; ; ; ; ; ;
in Solar Energy Materials & Solar Cells (2014), 126
Annealing of wet treated Cu(In,Ga)(S,Se)2 solar cells with an indium sulfide buffer;
in Thin Solid Films (2014)
Assessment of crystal quality and unit cell orientation in epitaxial Cu2ZnSnSe4 layers using polarized Raman scattering; ; ; ; ; ; ;
in OPTICS EXPRESS (2014), 22(23), 28240-28246
Assessment of crystal quality and unit cell orientation in epitaxial Cu2ZnSnSe4 layers using polarized Raman scattering; ; ; ; ; ; ;
in Optics Express (2014), 22
Metastable defect in CuInSe2 probed by modulated photo current experiments above 390K; ; ;
in APPLIED PHYSICS LETTERS (2014), 104
Modulated photocurrent experiments-comparison of different data treatments; ;
in JOURNAL OF APPLIED PHYSICS (2014), 116
Single Second Laser Annealed CuInSe2 Semiconductors from Electrodeposited Precursors as Absorber Layers for Solar Cells; ; ; ; ; ; ; ; ;
in Journal of Physical Chemistry. C, Nanomaterials and interfaces (2014), 118 (3)
Cu-Rich Precursors Improve Kesterite Solar Cells; ; ; ; ; ; ; ; ;
in ADVANCED ENERGY MATERIALS (2014), 4(2),
Cu2ZnSnSe4 thin film solar cells produced via co-evaporation and annealing including a SnSe2 capping layer; ; ; ; ;
in PROGRESS IN PHOTOVOLTAICS (2014), 22(1), 51-57
Different Bandgaps in Cu2ZnSnSe4 : a high temperature coevaporation study; ; ; ; ; ;
in IEEE Journal of Photovoltaics (2014)
The band gap of Cu2ZnSnSe4: Effect of order-disorder; ; ; ; ; ; ;
in Applied Physics Letters (2014), 105
Loss mechanisms in kesterite;
in wiley (Ed.) Copper Zinc Tin Sulphide-Based Thin Film Solar Cells (2014)
Direct Evaluation of Defect Distributions From Admittance Spectroscopy; ; ; ;
in IEEE JOURNAL OF PHOTOVOLTAICS (2014), 4
2013
Influence of the Se environment on Cu-rich CIS devices; ;
in Physica B. Condensed Matter (2013), B 439
Detecting ZnSe secondary phase in Cu2ZnSnSe4 by room temperature photoluminescence; ; ; ; ; ; ;
in Applied Physics Letters (2013), 102
HCl and Br2-MeOH etching of Cu2ZnSnSe4 polycrystalline absorbers; ; ; ; ; ;
in Thin Solid Films (2013), 535
Cu-rich precursors improve kesterite solar cells; ; ; ; ; ; ; ; ;
in Advanced Energy Materials (2013), 4
Molecular beam epitaxy of Cu2ZnSnSe4 thin films grown on GaAs(001); ; ; ; ;
Scientific Conference (2013, June)
Cu2ZnSnSe4 thin film solar cells produced via coevaporation and annealing including a SnSe2 capping layer; ; ; ; ;
in Progress in Photovoltaics (2013)
Influence of S/Se ratio on series resistance and on dominant recombination pathway in Cu2ZnSn(SSe)4 thin film solar cells; ; ; ;
in Thin Solid Films (2013), 535
Atom probe study of Cu2ZnSnSe4 thin-films prepared by co-evaporation and post-deposition annealing; ; ; ; ; ;
in Applied Physics Letters (2013), 102
Coumpound Semiconductors: Thin-Film Photovoltaics, LEDs, and Smart Energy Controls; ; ; ; ; ; ; ;
Book published by Materials Research society (2013)
Why do we make Cu(In,Ga)Se2 solar cells non-stoichiometric?; ; ; ;
in Solar Energy Materials & Solar Cells (2013)
Direct Synthesis of Single-Phase p‑Type SnS by Electrodeposition from a Dicyanamide Ionic Liquid at High Temperature for Thin Film Solar Cells; ; ; ; ;
in The Journal of Physical Chemistry (2013)
Role of high series resistance in admittance spectroscopy of kesterite solar cells; ; ; ;
Scientific Conference (2013)
Admittance spectroscopy in kesterite solar cells: Defect signal or circuit response; ; ; ;
in Applied Physics Letters (2013)
2012
Thin film solar cells based on the ternary compound Cu2SnS3; ; ; ; ;
in Thin Solid Films (2012), 520
Feedback mechanism for the stability of the band gap of CuInSe2; ; ; ; ; ; ; ; ; ; ;
in Physical Review (2012), 86
Kesterites - a challenging material for solar cells.;
in Progress in Photovoltaics: Research and Applications (2012), 20
2011
In-depth resolved Raman scattering analysis for the identification of secondary phases-characterization of Cu2ZnSnS4 layers for solar cell applications; ; ; ; ; ; ;
in Applied Physics Letters (2011), 98(181905), 1819051-1819053
MOVPE of CuGaSe2 on GaAs in the presence of a CuxSe secondary phase; ; ; ; ; ;
in Journal of Crystal Growth (2011), (315), 82-86
Influence of copper excess on the absorber quality of CulnSe2; ; ; ; ;
in Applied Physics Letters (2011), 99(151912), 1519121-15191123
Sub-bandgap photoconductivity and photocapacitance in CIGS thin films and devices; ; ; ; ; ;
in Thin Solid Films (2011), 519
Defects levels in CuGaSe2 by modulated photocurrent spectroscopy; ; ; ; ; ;
in Thin Solid Films (2011), 519
Spatial variations of optoelectronic properties in single crystalline CuGaSe2 thin films studied by photoluminescence; ; ;
in Thin Solid Films (2011), 519
Influence of secondary phase CuxSe on the optoelectronic quality of chalcopyrite thin films; ;
in Applied Physics Letters (2011), 98(201910), 2019101-2019103
Route Toward High-Efficiency Single-Phase Cu2ZnSn(S,Se)4 Thin-Film Solar Cells: Model Experiments and Literature Review; ; ; ; ; ; ;
in IEEE Journal of Photovoltaics (2011)
The Consequences of Kesterite Equilibria for Efficient Solar Cells; ; ;
in Journal of the American Chemical Society (2011), 133
Detection of a ZnSe secondary phase in coevaporated Cu2ZnSnSe4 thin films; ; ; ; ; ; ;
in Applied Physics Letters (2011), 98(101907), 1019071-1019073
What limits the efficiency of chalcopyrite solar cells?in Solar Energy Materials & Solar Cells (2011), 95
Preparation of CuGaSe2 absorber layers for thin film solar cells by annealing of efficiently electrodeposited Cu-Ga precursor layers from ionic liquids; ; ; ;
in Thin Solid Films (2011), 519
Controlled electrodeposition of Cu-Ga from a deep eutectic solvent for low cost fabrication of CuGaSe2 thin film solar cells; ; ;
in Physical Chemistry Chemical Physics (2011), 13(10), 4292-4302
2010
Large Neutral Barrier at Grain Boundaries in Chalcopyrite Thin Films; ; ; ;
in Physical Review Letters (2010), 104(196602), 1-4
Cu(InGa)Se2 Solar Cells; ;
in Luque, Antonio; Hegedus, Steven (Eds.) Handbook of Photovoltaic Science and Engineering, 2nd Edition (2010)
What limits the efficiency of CIGS solar cells? And what can theory do to shift the limits?Scientific Conference (2010, September)
The electronic structure of chalcopyrites - bands, point defects and grain boundaries; ; ;
in Progress in Photovoltaics (2010), 18(6), 390-410
2009
Compositional dependence of Raman scattering and photoluminescence emission in Cu-Ga-Se films grown by MOCVD; ; ;
in Physica B. Condensed Matter (2009)
Kesterite absorber layer uniformity from electrodeposited pre-cursors; ; ; ;
in Physica Status Solidi A. Applied Research (2009), 6(5), 1241-1244
Grain boundaries in Cu (In, Ga) (Se, S)2 thin-film solar cells; ;
in Applied Physics A : Materials Science & Processing (2009), 96(1), 221-234
2008
Charge and doping distributions by capacitance profiling in Cu(In,Ga)Se2 solar cells; ; ;
in Journal of Applied Physics (2008), 103
Photoluminescence and Raman spectra of the ordered vacancy compound CuGa5Se8; ; ; ;
in Physica B. Condensed Matter (2008)
Epitaxial growth of very large grain bicrystalline Cu(In, Ga)Se2 thin films by a hybrid sputtering method; ; ; ;
in Applied Physics Letters (2008), 103(8), 083540-1
Polarization of defect related optical transitions in chalcopyrites; ; ;
in Applied Physics Letters (2008), 93(9), 0003-6951
Thin Film Preparation of Chalcopyrites for Solar Cells and Fundamental Material PhysicsScientific Conference (2008, October)
2007
The role of the CdS buffer layer in CuGaSe2-based solar cells; ; ; ; ; ; ; ;
in Journal of Physics : Condensed Matter (2007), 19(35), 356222-32
