Photovoltaic effect in few-layer black phosphorus PN junctions defined by local electrostatic gating

Photovoltaic effect in few-layer black phosphorus PN junctions defined by local electrostatic gating

In conventional photovoltaic solar cells, photogenerated carriers are extracted by the built-in electric field of a semiconductor PN junction, defined by ionic dopants. In atomically thin semiconductors, the doping level can be controlled by the field effect, enabling the implementation of electrica...

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Bibliographic Details
Published in:Nature communications Vol. 5; no. 1; p. 4651
Main Authors: Buscema, Michele, Groenendijk, Dirk J., Steele, Gary A., van der Zant, Herre S.J., Castellanos-Gomez, Andres
Format: Journal Article
Language:English
Published: London Nature Publishing Group UK 28-08-2014
Nature Publishing Group
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142/126
639/624/1075/401
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Humanities and Social Sciences
multidisciplinary
Science
Science (multidisciplinary)
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Summary:In conventional photovoltaic solar cells, photogenerated carriers are extracted by the built-in electric field of a semiconductor PN junction, defined by ionic dopants. In atomically thin semiconductors, the doping level can be controlled by the field effect, enabling the implementation of electrically tunable PN junctions. However, most two-dimensional (2D) semiconductors do not show ambipolar transport, which is necessary to realize PN junctions. Few-layer black phosphorus (b-P) is a recently isolated 2D semiconductor with direct bandgap, high mobility, large current on/off ratios and ambipolar operation. Here we fabricate few-layer b-P field-effect transistors with split gates and hexagonal boron nitride dielectric. We demonstrate electrostatic control of the local charge carrier type and density in the device. Illuminating a gate-defined PN junction, we observe zero-bias photocurrents and significant open-circuit voltages due to the photovoltaic effect. The small bandgap of the material allows power generation for illumination wavelengths up to 940 nm, attractive for energy harvesting in the near-infrared. Ambipolar transport, necessary to realise PN-junctions, is unfortunately missing from most two-dimensional semiconductors. Here, the authors fabricate few-layer black phosphorous field-effect transistors, define PN-junctions and demonstrate full electrostatic control of the device by means of local gating.
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ISSN:2041-1723
2041-1723
DOI:10.1038/ncomms5651