Article ID Journal Published Year Pages File Type
746179 Solid-State Electronics 2016 8 Pages PDF
Abstract

•Nanocrystalline-FeSi2/Si heterojunctions were fabricated and experimentally tested.•Uses experimentally-extracted parameters of NC-FeSi2.•A heterojunction structure using nanocrstalline-FeSi2 and nanocrystalline-Si is proposed.•Photovoltaic properties of the proposed device were numerically evaluated.•A conversion efficiency of 25% can be achieved for devices with defect density, below 1014 cm−3 eV−1 in NC-FeSi2 layer.

In this paper, an application of nanocrystalline iron disilicide (NC-FeSi2) combined with nanocrystalline-Si (NC-Si) in a heterostructured solar cell is introduced and numerically evaluated in detail. The proposed cell structure is studied based on an experimental investigation of photovoltaic properties of NC-FeSi2/crystalline-Si heterojunctions, composed of unintentionally-doped NC-FeSi2 thin film grown on Si substrate. Photoresponse measurement of NC-FeSi2/crystalline-Si heterojunction confirmed ability of NC-FeSi2 to absorb NIR light and to generate photocarriers. However, collection of these carriers was not so efficient and a radical improvement in design of the device is required. Therefore, a modified device structure, comprising of NC-FeSi2 layer sandwiched between two heavily-doped p- and n-type NC-Si, is suggested and numerically evaluated. Simulation results showed that the proposed structure would exhibit a relatively high conversion efficiency of 25%, due to an improvement in collection efficiency of photogenerated carriers in the NC-FeSi2 and NC-Si layers. To attain such efficiency, defect densities in NC-FeSi2 and NC-Si layers should be kept less than 1014 and 1016 cm−3 eV−1, respectively. Remarkable optical and electrical properties of NC-FeSi2, employed in the proposed structure, facilitate improving device quantum efficiency spectrum providing significant spectrum extension into the near-infrared region beyond Si bandgap.

Related Topics
Physical Sciences and Engineering Engineering Electrical and Electronic Engineering
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