Thermally Stable Silver Nanowires-Embedding Metal Oxide for Schottky Junction Solar Cells

ACS Appl Mater Interfaces. 2016 Apr 6;8(13):8662-9. doi: 10.1021/acsami.5b12732. Epub 2016 Mar 23.

Abstract

Thermally stable silver nanowires (AgNWs)-embedding metal oxide was applied for Schottky junction solar cells without an intentional doping process in Si. A large scale (100 mm(2)) Schottky solar cell showed a power conversion efficiency of 6.1% under standard illumination, and 8.3% under diffused illumination conditions which is the highest efficiency for AgNWs-involved Schottky junction Si solar cells. Indium-tin-oxide (ITO)-capped AgNWs showed excellent thermal stability with no deformation at 500 °C. The top ITO layer grew in a cylindrical shape along the AgNWs, forming a teardrop shape. The design of ITO/AgNWs/ITO layers is optically beneficial because the AgNWs generate plasmonic photons, due to the AgNWs. Electrical investigations were performed by Mott-Schottky and impedance spectroscopy to reveal the formation of a single space charge region at the interface between Si and AgNWs-embedding ITO layer. We propose a route to design the thermally stable AgNWs for photoelectric device applications with investigation of the optical and electrical aspects.

Keywords: Schottky junction; impedance spectroscopy; metal oxide; solar cells; surface plasmon; thermal stable AgNWs; transparent conductor.

Publication types

  • Research Support, Non-U.S. Gov't