Subnanometer Ga2O3 Tunnelling Layer by Atomic Layer Deposition to Achieve 1.1 V Open-Circuit Potential in Dye-Sensitized Solar Cells

Subnanometer Ga2O3 Tunnelling Layer by Atomic Layer Deposition to Achieve 1.1 V Open-Circuit Potential in Dye-Sensitized Solar Cells

Herein, we present the first use of a gallium oxide tunnelling layer to significantly reduce electron recombination in dye-sensitized solar cells (DSC). The subnanometer coating is achieved using atomic layer deposition (ALD) and leading to a new DSC record open-circuit potential of 1.1 V with state...

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Veröffentlicht in:Nano letters 2012-08, Vol.12 (8), p.3941-3947
Hauptverfasser: Chandiran, Aravind Kumar, Tetreault, Nicolas, Humphry-Baker, Robin, Kessler, Florian, Baranoff, Etienne, Yi, Chenyi, Nazeeruddin, Mohammad Khaja, Grätzel, Michael
Format: Artikel
Sprache:eng
Schlagworte:
Applied sciences
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Condensed matter: structure, mechanical and thermal properties
Electron states
Electronics
Energy
Exact sciences and technology
Excitons and related phenomena
Low-dimensional structures (superlattices, quantum well structures, multilayers): structure, and nonelectronic properties
Molecular electronics, nanoelectronics
Natural energy
Photovoltaic conversion
Physics
Semiconductor electronics. Microelectronics. Optoelectronics. Solid state devices
Solar cells. Photoelectrochemical cells
Solar energy
Surfaces and interfaces
thin films and whiskers (structure and nonelectronic properties)
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Zusammenfassung:Herein, we present the first use of a gallium oxide tunnelling layer to significantly reduce electron recombination in dye-sensitized solar cells (DSC). The subnanometer coating is achieved using atomic layer deposition (ALD) and leading to a new DSC record open-circuit potential of 1.1 V with state-of-the-art organic D-π-A sensitizer and cobalt redox mediator. After ALD of only a few angstroms of Ga2O3, the electron back reaction is reduced by more than an order of magnitude, while charge collection efficiency and fill factor are increased by 30% and 15%, respectively. The photogenerated exciton separation processes of electron injection into the TiO2 conduction band and the hole injection into the electrolyte are characterized in detail.
ISSN:1530-6984
1530-6992
DOI:10.1021/nl301023r