Abstract:
Sourcing for alternative to liquid electrolyte in dye sensitized solar cells (DSSCs) have been the subject of interest in the photovoltaic horizon. Herein, we reported by means of simulation, the performance of dye sensitized solar cell by replacing liquid electrolyte with a copper (I) thiocyanate (CuSCN) hole conductor. The study was carried out using Solar Capacitance Simulation Software (SCAPS) which is based on poisson and continuity equations. The simulation was done based on a n-i-p proposed architecture of FTO/TiO2/N719/CuSCN/Pt. Result of the initial device gave a Power Conversion Efficiency (PCE), Fill Factor (FF), Short Circuit Current Density (Jsc) and Open Circuit Voltage (Voc) of 5.71 %, 78.32 %, 6.23 mAcm-2, and 1.17 V. After optimizing input parameters to obtain 1�109 cm-2 for CuSCN/N719 interface defect density, 280 K for temperature, 1.0 ?m for N719 dye thickness, 0.4 ?m for TiO2 thickness, Pt for metal back contact, and 0.2 ?m for CuSCN thickness, the overall device performance of 7.379 % for PCE, 77.983 % for FF, 7.185 mAcm-2 for Jsc and 1.317 V for Voc were obtained. When compared with the initial device, the optimized results showed an enhanced performance of ~ 1.29 times, 1.15 times, and 1.13 times in PCE, Jsc and Voc over the initial device. The results obtained are encouraging and the findings will serve as baseline to researchers involved in the fabrication of novel high-performance solid state DSSCs to realize its appealing nature for industry scalability. � E. Danladi, M. Kashif, T. O. Daniel, C.U. Achem, M. Alpha, M. Gyan, 2022.
Description:
Danladi, E., Department of Physics, Federal University of Health Sciences, Benue State, Otukpo, Nigeria; Kashif, M., School of Electrical Automation and Information Engineering, Tianjin University, Tianjin, 300072, China; Daniel, T.O., Department of Physics, Alex Ekwueme Federal University, Ebonyi State, Ndufu Alike, Nigeria; Achem, C.U., Centre for Satellite Technology Development-NASRDA, Abuja, Nigeria; Alpha, M., Department of Physics, Nigerian Army University, Borno State, Biu, Nigeria; Gyan, M., Department of Physics, University of Education, Winneba, Ghana