Jonas D. Huyeng scite author profile

Tellurium-based phase-change materials (PCMs) enable applications from optical and electronic data storage to thermoelectrics and plasmonics, which all demand precise control of electronic properties. These materials contain an unusually large number of vacancies: "stoichiometric" ones that stem from the chemical composition and "excess" vacancies that act like classical dopants. Here we show how both types of vacancies can be controlled independently in the solid solution Sn(Sb 1−x Bi x ) 2 Te 4 . We vary x in small steps over the entire compositional range and show that this has a profound effect on the material's electronic nature: remarkably, we observe a change from p-to n-type conduction at x ≈ 0.7, solely controlled by composition. Our findings lead to a new compositionally (that is, chemically) tunable materials platform that enables precise control of electrical properties.

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Inkjet printing of phosphorus dopant sources for doping poly-silicon in solar cells with passivating contacts

Kiaee

Reichel

Hussain

et al. 2021

Solar Energy Materials and Solar Cells

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Screen‐Printed Borosilicate Glass Derived from Sol–Gel Materials for Back‐Contact Back‐Junction Solar Cells

et al. 2020

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Unravelling the Origins of Contact Recombination for Localized Laser-Doped Contacts

Huyeng

Walter

Fong

et al. 2018

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Jonas D. Huyeng

Chemical Tuning of Carrier Type and Concentration in a Homologous Series of Crystalline Chalcogenides

Inkjet printing of phosphorus dopant sources for doping poly-silicon in solar cells with passivating contacts

Screen‐Printed Borosilicate Glass Derived from Sol–Gel Materials for Back‐Contact Back‐Junction Solar Cells

Unravelling the Origins of Contact Recombination for Localized Laser-Doped Contacts

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