Theory of formability and diffusivity of point defects and impurites in Cd(Se,Te) Article Swipe

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Anderson Janotti , Igor Evangelista , Intuon Chatratin ·

YOU? · · 2023 · Open Access · · DOI: https://doi.org/10.2172/2204850

favor migration paths within the basal plane of the wurtzite CdS lattice, which may facilitate defect clustering and ultimately the formation of Cu-rich interfacial phases as observed by energy dispersive x-ray spectroscopic elemental maps in real PV devices. Se, Zn, and Sn defects are found to exhibit much larger activation energies and are not expected to diffuse within the CdS bulk at temperatures compatible with typical PV processing temperatures. Lastly, we find that Na interstitials are expected to exhibit slightly lower activation energies than K interstitials despite having a larger migration barrier. Still, we find both alkali species are expected to diffuse via an interstitially mediated mechanism at slightly higher temperatures than enable In, Ga, and Cu diffusion in the bulk. Our results indicate that processing temperatures in excess of ∼400 °C will lead to more interfacial intermixing with CdS buffer layers in CIGSe devices, and less so for CZTSSe absorbers where only Cu is expected to significantly diffuse into the buffer.

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Materials Science

Crystallographic Defect

Condensed Matter Physics

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Materials science Wurtzite crystal structure Thermal diffusivity Crystallographic defect Activation energy Diffusion Lattice (music) Chemical physics Condensed matter physics Crystallography Metallurgy Thermodynamics Chemistry Physical chemistry Zinc Physics Acoustics

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Type: article
Language: en
Landing Page: https://doi.org/10.2172/2204850
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Title: Theory of formability and diffusivity of point defects and impurites in Cd(Se,Te)

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Language: en

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Publication year: 2023

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Publication date: 2023-10-26

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Authors: Anderson Janotti, Igor Evangelista, Intuon Chatratin

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Concepts: Materials science, Wurtzite crystal structure, Thermal diffusivity, Crystallographic defect, Activation energy, Diffusion, Lattice (music), Chemical physics, Condensed matter physics, Crystallography, Metallurgy, Thermodynamics, Chemistry, Physical chemistry, Zinc, Physics, Acoustics

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