Using simulations from first principles we investigate the microscopic role of doping on the optoelectronic properties of X-doped ZnO (XZO, X=Al, F), as transparent conductive oxide for energy applications. We show how the interplay between (co)dopants and defects affects TCO characteristics of the samples. Finally, we study the plasmonic activity of XZO in the near-IR/visible range and in particular at wavelength relevant for telecommunications (1.5 ?m), confirming recent experimental results.
Doping, co-doping, and defect effects on the plasmonic activity of ZnO-based transparent conductive oxides
Calzolari A;Catellani A
2017
Abstract
Using simulations from first principles we investigate the microscopic role of doping on the optoelectronic properties of X-doped ZnO (XZO, X=Al, F), as transparent conductive oxide for energy applications. We show how the interplay between (co)dopants and defects affects TCO characteristics of the samples. Finally, we study the plasmonic activity of XZO in the near-IR/visible range and in particular at wavelength relevant for telecommunications (1.5 ?m), confirming recent experimental results.File in questo prodotto:
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