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Self-Powered Photodetectors Based on Core-Shell ZnO-Co3O4 Nanowire Heterojunctions.
Ghamgosar, Pedram; Rigoni, Federica; Kohan, Mojtaba Gilzad; You, Shujie; Morales, Edgar Abarca; Mazzaro, Raffaello; Morandi, Vittorio; Almqvist, Nils; Concina, Isabella; Vomiero, Alberto.
Afiliação
  • Ghamgosar P; Department of Engineering Sciences and Mathematics, Division of Materials Science , Luleå University of Technology , 97187 Luleå , Sweden.
  • Rigoni F; Department of Engineering Sciences and Mathematics, Division of Materials Science , Luleå University of Technology , 97187 Luleå , Sweden.
  • Kohan MG; Department of Engineering Sciences and Mathematics, Division of Materials Science , Luleå University of Technology , 97187 Luleå , Sweden.
  • You S; Department of Engineering Sciences and Mathematics, Division of Materials Science , Luleå University of Technology , 97187 Luleå , Sweden.
  • Morales EA; Department of Engineering Sciences and Mathematics, Division of Materials Science , Luleå University of Technology , 97187 Luleå , Sweden.
  • Mazzaro R; Department of Engineering Sciences and Mathematics, Division of Materials Science , Luleå University of Technology , 97187 Luleå , Sweden.
  • Morandi V; Institute for Microelectronics and Microsystems Section of Bologna , National Research Council , Via P. Gobetti, 101 , I-40129 Bologna , Italy.
  • Almqvist N; Department of Engineering Sciences and Mathematics, Division of Materials Science , Luleå University of Technology , 97187 Luleå , Sweden.
  • Concina I; Department of Engineering Sciences and Mathematics, Division of Materials Science , Luleå University of Technology , 97187 Luleå , Sweden.
  • Vomiero A; Department of Engineering Sciences and Mathematics, Division of Materials Science , Luleå University of Technology , 97187 Luleå , Sweden.
ACS Appl Mater Interfaces ; 11(26): 23454-23462, 2019 Jul 03.
Article em En | MEDLINE | ID: mdl-31252456
Self-powered photodetectors operating in the UV-visible-NIR window made of environmentally friendly, earth abundant, and cheap materials are appealing systems to exploit natural solar radiation without external power sources. In this study, we propose a new p-n junction nanostructure, based on a ZnO-Co3O4 core-shell nanowire (NW) system, with a suitable electronic band structure and improved light absorption, charge transport, and charge collection, to build an efficient UV-visible-NIR p-n heterojunction photodetector. Ultrathin Co3O4 films (in the range 1-15 nm) were sputter-deposited on hydrothermally grown ZnO NW arrays. The effect of a thin layer of the Al2O3 buffer layer between ZnO and Co3O4 was investigated, which may inhibit charge recombination, boosting device performance. The photoresponse of the ZnO-Al2O3-Co3O4 system at zero bias is 6 times higher compared to that of ZnO-Co3O4. The responsivity ( R) and specific detectivity ( D*) of the best device were 21.80 mA W-1 and 4.12 × 1012 Jones, respectively. These results suggest a novel p-n junction structure to develop all-oxide UV-vis photodetectors based on stable, nontoxic, low-cost materials.
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Texto completo: 1 Base de dados: MEDLINE Idioma: En Ano de publicação: 2019 Tipo de documento: Article

Texto completo: 1 Base de dados: MEDLINE Idioma: En Ano de publicação: 2019 Tipo de documento: Article