Skip Navigation

Stanford scientists design dichalcogenide solar cells based on tungsten diselenide

www.pv-magazine.com Stanford scientists design dichalcogenide solar cells based on tungsten diselenide

The researchers outlined a "scalable" manufacturing process that reportedly results in a tungsten diselenide film with an efficiency of up to 22.3%. The proposed technique could facilitate the mass production of high-efficiency multilayer WSe2 solar cells at low cost.

Stanford scientists design dichalcogenide solar cells based on tungsten diselenide

The group designed a sputtered multilayer WSe2 film with a thickness of 15−30 nm for applications on on a 150 mm wafer via a selenization process based on either a solid-source selenium (SS-Se) at 900 C or low-thermal-budget hydrogen selenied (H2Se) precursors at 650 C. The resulting WSe2 film had an energy bandgap of 1.2 eV to 1.3 eV, which the scientists described as near-ideal for solar energy harvesting.

6

You're viewing a single thread.

6 comments
You've viewed 6 comments.