Open AccessInterfacial engineering of nanostructured photoanode in fiber dye‐sensitized solar cells for self‐charging power systems
Author(s) -
Song Weixing,
Bie Zhe,
Yan Wei,
Zhu Junbo,
Ma Weiting
Publication year - 2022
Publication title -
ecomat
Language(s) - English
Resource type - Journals
ISSN - 2567-3173
DOI - 10.1002/eom2.12177
Subject(s) - materials science , nanopillar , polyimide , optoelectronics , electronics , layer (electronics) , energy conversion efficiency , atomic layer deposition , nanotechnology , fabrication , photovoltaic system , planar , flexible electronics , fiber , dye sensitized solar cell , electrode , electrical engineering , composite material , computer science , nanostructure , chemistry , electrolyte , medicine , alternative medicine , computer graphics (images) , engineering , pathology
Solar cells offer an environmentally sustainable and convenient option for power source of next‐generation wearable electronics. Due to the advantages of low cost, easy fabrication and deformation, fiber dye‐sensitized solar cells (FDSSCs) are required to be suitable for the available wearable electronics. Herein, through introduced nanopillar arrays over the Ti wire and atomic layer deposition of conformal TiO 2 layer to make the photoanode, the energy conversion efficiency of the FDSSCs is improved by 45%. The FDSSCs are combined with planar microsupercapacitor (MSC) clusters to make self‐charging power system on a polymer sheet. The interdigital finger electrodes of MSC were obtained in a single‐step method by laser‐inducing on a polyimide film, and two series can be charged up to 1.8 V in 30 s by the FDSSCs under solar irradiation. This power sheet can be attached to various surfaces such as skin, cloths, and electronic devices for practical applications.