Binary copper oxide semiconductors: From materials towards devices

Meyer, Bertrand; Polity, A.; Reppin, Daniel; Becker, Martin; Hering, P.; Klar, Peter J.; Sander, Th.; Reindl, Christian T.; Benz, J.; Eickhoff, Martin; Heiliger, Christian; Heinemann, Markus; Bläsing, J.; Krost, A.; Shokovets, S.; Müller, Christian; Ronning, Carsten

doi:10.1002/pssb.201248128

articlephysica status solidi (b)Jun 6, 2012Closed access

Binary copper oxide semiconductors: From materials towards devices

BMBertrand Meyer APA. Polity DRDaniel Reppin MBMartin Becker PHP. Hering

Justus-Liebig-Universität Gießen · Otto-von-Guericke-Universität Magdeburg · +2 more institutions

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Abstract

Abstract Copper‐oxide compound semiconductors provide a unique possibility to tune the optical and electronic properties from insulating to metallic conduction, from bandgap energies of 2.1 eV to the infrared at 1.40 eV, i.e., right into the middle of the efficiency maximum for solar‐cell applications. Three distinctly different phases, Cu 2 O, Cu 4 O 3 , and CuO, of this binary semiconductor can be prepared by thin‐film deposition techniques, which differ in the oxidation state of copper. Their material properties as far as they are known by experiment or predicted by theory are reviewed. They are supplemented by new experimental results from thin‐film growth and characterization, both will be critically…

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Topics & keywords

Topics

Keywords

Heterojunction
X-ray photoelectron spectroscopy
Materials science
Semiconductor
Solar cell
Band gap
Copper
Optoelectronics

UN Sustainable Development Goals

Affordable and clean energy

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