Flexible and high-efficiency Sb2S3/solid carrier solar cell at low light intensity
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Krstić, Jelena I.
Kačarević-Popović, Zorica M.
Validžić, Ivana Lj.
Article (Published version)
© 2018, Springer International Publishing AG, part of Springer Nature
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Producing green and efficient energy sources is a major challenge. As a consequence, the use of photovoltaic devices for conversion of light into electricity is growing worldwide. A lot of effort had been invested to create high-efficient solar cells, but their durability, stability, flexibility and efficiency at low light intensities are still unexplored. Here, we built a flexible solar cell made of p-doped, amorphized a-undoped and n-doped Sb2S3 solid carrier loaded with electrolyte. Indium tin oxide glass was the working electrode, and aluminium was the counter electrode. Every (p-a-n) flexible Sb2S3/solid carrier layers were obtained using a cheap casting/solvent evaporation technique, from a blend consisted of chitosan, polyethylene glycol and electrolyte containing 0.5 M potassium iodide and 0.05 M iodine, and corresponding synthesized amorphized a-undoped and p and n-doped Sb2S3 semiconductor. Results show that flexible Sb2S3 solar cell possesses good stability and efficiency of... about 10% at 5% sun. Overall, our findings demonstrate for the first time that flexible solar cell can be made and used for low light intensity applications.
Keywords:solar energy materials / Sb2S3 / solar cell / low light intensity / optics/lens
Source:Environmental Chemistry Letters, 2018, 16, 2, 659-664
ISSN: 1610-3653 (print); 1610-3661 (electronic)