Isotype Heterojunction Solar Cells Using n-Type Sb2Se3 Thin Films

Authors :: Vinod R. Dhanak
Chris Leighton
Tien-Lin Lee
Silvia Mariotti
Pardeep K. Thakur
Christopher N. Savory
Thomas J. Featherstone
Huw Shiel
Oliver S. Hutter
David O. Scanlon
Theodore D. C. Hobson
Mark Farnworth
Jack E. N. Swallow
Ken Durose
Leanne A. H. Jones
Matthew J. Smiles
Leon Bowen
Bhaskar Das
Pabitra K. Nayak
Henry J. Snaith
Tim D. Veal
Guillaume Zoppi
Jonathan D. Major
Laurie J. Phillips
Source :: Chemistry of materials, 2020, Vol.32(6), pp.2621-2630 [Peer Reviewed Journal]
Publication Year :: 2020
Publisher :: American Chemical Society (ACS), 2020.
Abstract: The carrier-type of the emerging photovoltaic Sb2Se3 was evaluated for both thin films and bulk crystals via a range of complementary techniques. X-ray photoelectron spectroscopy (XPS), hot probe, Hall effect, and surface photovoltage spectroscopy showed films and crystals synthesized from the Sb2Se3 granulate material to be n-type with chlorine identified as an unintentional n-type dopant via secondary ion mass spectrometry analysis. The validity of chlorine as a dopant was confirmed by the synthesis of intrinsic crystals from metallic precursors and subsequent deliberate n-type doping by the addition of MgCl2. Chlorine was also shown to be a substitutional n-type shallow dopant by density functional theory calculations. TiO2/Sb2Se3 n–n isotype heterojunction solar cells with 7.3% efficiency are subsequently demonstrated, with band alignment analyzed via XPS.