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. 2023 Jan;35(2):e2208698.
doi: 10.1002/adma.202208698. Epub 2022 Nov 24.

A Switchable One-Compound Diode

Anna Vogel  1 Alfred Rabenbauer  1 Philipp Deng  1 Ruben Steib  1 Thorben Böger  2   3 Wolfgang G Zeier  2 Renée Siegel  4 Jürgen Senker  4 Dominik Daisenberger  5 Katharina Nisi  6 Alexander W Holleitner  6 Janio Venturini  1 Tom Nilges  1
Affiliations

A Switchable One-Compound Diode

Anna Vogel et al. Adv Mater. 2023 Jan.

Abstract

A diode requires the combination of p- and n-type semiconductors or at least the defined formation of such areas within a given compound. This is a prerequisite for any IT application, energy conversion technology, and electronic semiconductor devices. Since the discovery of the pnp-switchable compound Ag10 Te4 Br3 in 2009, it is in principle possible to fabricate a diode from a single material without adjusting the semiconduction type by a defined doping level. Often a structural phase transition accompanied by a dynamic change of charge carriers or a charge density wave within certain substructures are responsible for this effect. Unfortunately, the high pnp-switching temperature between 364 and 580 K hinders the application of this phenomenon in convenient devices. This effect is far removed from a suitable operation temperature at ambient conditions. Ag18 Cu3 Te11 Cl3 is a room temperature pnp-switching material and the first single-material position-independent diode. It shows the highest ever reported Seebeck coefficient drop that takes place within a few Kelvin. Combined with its low thermal conductivity, it offers great application potential within an accessible and applicable temperature window. Ag18 Cu3 Te11 Cl3 and pnp-switching materials have the potential for applications and processes where diodes, transistors, or any defined charge separation with junction formation are utilized.

Keywords: coinage metals; diodes; ion conductors; pnp-switches; polymorphism.

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