Add to ORKGpeer reviewedThe power conversion efficiency boost of Cu(In,Ga)Se2 in the past years has been possible due to the incorporation of heavy alkali atoms. Their addition through post-deposition treatments results in an improvement of the open-circuit voltage, which origin has been associated with grain boundaries. The present work discusses the effect of potassium fluoride post-deposition treatments on the optoelectronic properties of a series of sodium-free Cu(In,Ga)Se2 single crystals with varying Cu and Ga content. Results suggest that improvement of the quasi-Fermi level splitting can be achieved despite the absence of grain boundaries, being greater in low-gallium Cu-poor absorbers. Secondary ion mass spectrometry reveals the presence of p...
In this work, we used K‐rich glass substrates to provide potassium during the coevaporation of Cu(In...
We report on the use and effect of the alkali elements rubidium and caesium in the place of sodium a...
The properties and performance of polycrystalline materials depend critically on the properties of t...
The implementation of potassium fluoride treatments as a doping and surface modification procedure ...
peer reviewedAlkali post-deposition treatments (PDTs) of Cu(In, Ga)Se2 (CIGSe) absorbers are known t...
International audienceSignificant power conversion efficiency improvements have recently been achiev...
Recent progress in the power conversion efficiency of Cu(In,Ga)Se2 thin film solar cells has been ac...
Thin film solar cells based on Cu In,Ga Se2 absorber layers have reached conversion efficiencies of ...
Over the last years, alkali post-deposition treatments (PDT) have been attributed as the main driver...
Chalcopyrite solar cells achieve efficiencies above 23%. The latest improvements are due to post-dep...
| openaire: EC/H2020/641004/EU//Sharc25Chalcopyrite solar cells achieve efficiencies above 23%. The ...
International audienceUp to now, what we know about the impact of alkali post-deposition treatment (...
It is attractive to alloy Cu(In,Ga)Se2 solar-cell absorbers with Ag (ACIGSe), since they lead to sim...
We present a comparative study that focuses on the variability of post-deposition treatments (NaF-PD...
In this work, we used K‐rich glass substrates to provide potassium during the coevaporation of Cu(In...
We report on the use and effect of the alkali elements rubidium and caesium in the place of sodium a...
The properties and performance of polycrystalline materials depend critically on the properties of t...
The implementation of potassium fluoride treatments as a doping and surface modification procedure ...
peer reviewedAlkali post-deposition treatments (PDTs) of Cu(In, Ga)Se2 (CIGSe) absorbers are known t...
International audienceSignificant power conversion efficiency improvements have recently been achiev...
Recent progress in the power conversion efficiency of Cu(In,Ga)Se2 thin film solar cells has been ac...
Thin film solar cells based on Cu In,Ga Se2 absorber layers have reached conversion efficiencies of ...
Over the last years, alkali post-deposition treatments (PDT) have been attributed as the main driver...
Chalcopyrite solar cells achieve efficiencies above 23%. The latest improvements are due to post-dep...
| openaire: EC/H2020/641004/EU//Sharc25Chalcopyrite solar cells achieve efficiencies above 23%. The ...
International audienceUp to now, what we know about the impact of alkali post-deposition treatment (...
It is attractive to alloy Cu(In,Ga)Se2 solar-cell absorbers with Ag (ACIGSe), since they lead to sim...
We present a comparative study that focuses on the variability of post-deposition treatments (NaF-PD...
In this work, we used K‐rich glass substrates to provide potassium during the coevaporation of Cu(In...
We report on the use and effect of the alkali elements rubidium and caesium in the place of sodium a...
The properties and performance of polycrystalline materials depend critically on the properties of t...