CoS NWs/Au Hybridized Networks as Efficient Counter Electrodes for Flexible Sensitized Solar Cells

A newly designed counter electrode (CE) composed of a hybridized structure of Au networks and cobalt sulfide (CoS) nanowire (NW) arrays is presented for flexible dye‐sensitized solar cells (DSSCs) and quantum dot‐sensitized solar cells (QDSSCs). The sheet resistance of the Au networks electrode is ≈10 Ω sq −1 with a transmittance up to 90%. The CoS NWs/Au hybridized networks show excellent electrocatalytic activity and lower charge transfer resistance toward the reduction of both S x 2− ions and I 3 − ions. The hybridized electrode exhibits remarkable mechanical strength and no obvious changes in morphology and sheet resistance even after 500 bending cycles; 3.13% and 4.73% efficiency are obtained by utilizing CoS/Au hybridized networks as CEs in TiO 2 nanotube array (TNAR) based DSSCs and QDSSCs. This work provides a novel approach to fabricate flexible, transparent, conductive, and catalytically active electrodes for QDSSCs and DSSCs and pomotes the development of transparent percolation conductive films for photovoltaics.