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- Title
Flexible Solar Yarns with 15.7% Power Conversion Efficiency, Based on Electrospun Perovskite Composite Nanofibers.
- Authors
Li, Qian; Balilonda, Andrew; Ali, Aizaz; Jose, Rajan; Zabihi, Fatemeh; Yang, Shengyuan; Ramakrishna, Seeram; Zhu, Meifang
- Abstract
A flexible perovskite solar yarn with an impressive active lifetime (>216 h) and an exceptional photon conversion efficiency is prepared under ordinary conditions. The champion device demonstrates an average linear mass density of 0.89 mg cm−1 and can be bent over a loop diameter of 2.5 mm, with a negligible efficiency loss. Photoactive nanofibers composed of a polyvinylpyrrolidone (PVP) central strain and a perovskite phase on the surface (with average grain size of 275 ± 14.3 nm), are prepared by electrospinning, at 18 kV, relative humidity of 75%, and a temperature of 25 °C. This bilayered configuration promises superior mechanical strength and flexibility, together with an excellent photovoltaic character, compared with their dip coated counterparts. Photoactive perovskite nanofibers are incorporated into a plied‐solar yarn, with an organic hole‐conductive layer, poly(3‐hexylthiophene‐2,5‐diyl)‐coated on silver yarn electrode, and a composite electron conductive layer, phenyl‐C61‐butyric acid methyl ester (PC61BM)‐SnO2 coated on a carbon yarn. An individual double‐twisted solar yarns yields 15.7% champion power conversion efficiency, while a 30.5 mm × 30.5 mm active area of plain‐woven fabric generates a maximum power density of 1.26 mW cm−2 under one sun (1000 W m−2) solar illumination.
- Subjects
NANOFIBERS; PEROVSKITE; CARBON nanofibers; YARN; METHYL formate; POWER density; HUMIDITY; GRAIN size
- Publication
Solar RRL, 2020, Vol 4, Issue 9, p1
- ISSN
2367-198X
- Publication type
Article
- DOI
10.1002/solr.202000269