Topics
ionComics character
RbFChemical substance
chalcopyriteChemical substance
physicsWork
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mass spectrometryTopical concept
GaChemical substance
Alkali postdeposition treatments of Cu In,Ga Se2 absorbers with KF, RbF, and CsF have led to remarkable efficiency improvements for chalcopyrite thin film solar cells. However, the effect of such treatments on the electronic properties and defect physics of the chalcopyrite absorber surfaces are not yet fully understood. In this work, we use scanning tunneling spectroscopy and X ray photoelectron spectroscopy to compare the surface defect electronic properties and chemical composition of RbF treated and nontreated absorbers. We find that the RbF treatment is effective in passivating electronic defect levels at the surface by preventing surface oxidation. Our X ray photoelectron spectroscopy XPS data points to the presence of chemisorbed R...
Chalcopyrite solar cells achieve efficiencies above 23%. The latest improvements are due to post-dep...
In polycrystalline semiconductor absorbers for thin film solar cells, structural defects may enhance...
The unusual defect chemistry of polycrystalline Cu(In,Ga)Se<sub>2</sub> (CIGSe) thin films is a ma...
Alkali postdeposition treatments of Cu In,Ga Se2 absorbers with KF, RbF, and CsF have led to remarka...
This thesis presents an investigation of the surface and interface structures in chalcopyrite based ...
We present a comparative study that focuses on the variability of post-deposition treatments (NaF-PD...
Cu In,Ga Se2 CIGSe is a promising absorber material for thin film photovoltaic devices. A key proc...
The unusual defect chemistry of polycrystalline Cu In,Ga Se2 CIGSe thin films is a main issue for...
Latest record efficiencies of Cu In,Ga Se2 CIGSe solar cells were achieved by means of a rubidium ...
The implementation of potassium fluoride treatments as a doping and surface modification procedure ...
Cu(In,Ga)Se2 (CIGSe) is a promising absorber material for thin‐film photovoltaic devices. A key proc...
We present a detailed characterization of the chemical structure of the Cu(In,Ga)Se2 thin-film surfa...
Photovoltaic devices based on Cu In,Ga Se2 CIGSe absorbers are among the most attractive non Si al...
Polycrystalline Cu(In,Ga)Se2 (CIGSe) exhibit excellent properties for high power conversion efficien...
Chalcopyrite solar cells achieve efficiencies above 23%. The latest improvements are due to post-dep...
In polycrystalline semiconductor absorbers for thin film solar cells, structural defects may enhance...
The unusual defect chemistry of polycrystalline Cu(In,Ga)Se<sub>2</sub> (CIGSe) thin films is a ma...
Alkali postdeposition treatments of Cu In,Ga Se2 absorbers with KF, RbF, and CsF have led to remarka...
This thesis presents an investigation of the surface and interface structures in chalcopyrite based ...
We present a comparative study that focuses on the variability of post-deposition treatments (NaF-PD...
Cu In,Ga Se2 CIGSe is a promising absorber material for thin film photovoltaic devices. A key proc...
The unusual defect chemistry of polycrystalline Cu In,Ga Se2 CIGSe thin films is a main issue for...
Latest record efficiencies of Cu In,Ga Se2 CIGSe solar cells were achieved by means of a rubidium ...
The implementation of potassium fluoride treatments as a doping and surface modification procedure ...
Cu(In,Ga)Se2 (CIGSe) is a promising absorber material for thin‐film photovoltaic devices. A key proc...
We present a detailed characterization of the chemical structure of the Cu(In,Ga)Se2 thin-film surfa...
Photovoltaic devices based on Cu In,Ga Se2 CIGSe absorbers are among the most attractive non Si al...
Polycrystalline Cu(In,Ga)Se2 (CIGSe) exhibit excellent properties for high power conversion efficien...
Chalcopyrite solar cells achieve efficiencies above 23%. The latest improvements are due to post-dep...
In polycrystalline semiconductor absorbers for thin film solar cells, structural defects may enhance...
The unusual defect chemistry of polycrystalline Cu(In,Ga)Se<sub>2</sub> (CIGSe) thin films is a ma...
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