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Water-resistant perovskite nanodots enable robust two-photon lasing in aqueous environment

Engineering and Technology

Water-resistant perovskite nanodots enable robust two-photon lasing in aqueous environment

S. Li, D. Lei, et al.

Discover how a novel Pb-S bonding approach has led to the creation of water-resistant perovskite@silica nanodots that maintain their emission for over six weeks in water. This groundbreaking research conducted by Siqi Li and colleagues reveals the potential for two-photon lasing devices with remarkable stability, retaining 80% of their initial emission quantum yield after hours submerged. A breakthrough that could revolutionize applications in aqueous environments for optoelectronics, bioimaging, and biosensing!... show more
Abstract
Owing to their large absorption cross-sections and high photoluminescence quantum yields, lead halide perovskite quantum dots (PQDs) are regarded as a promising candidate for various optoelectronics applications. However, easy degradation of PQDs in water and in a humid environment is a critical hindrance for applications. Here we develop a Pb-S bonding approach to synthesize water-resistant perovskite@silica nanodots keeping their emission in water for over six weeks. A two-photon whispering-gallery mode laser device made of these ultra-stable nanodots retain 80% of its initial emission quantum yield when immersed in water for 13 h, and a two-photon random laser based on the perovskite@silica nanodots powder could still operate after the nanodots were dispersed in water for up to 15 days. Our synthetic approach opens up an entirely new avenue for utilizing PQDs in aqueous environment, which will significantly broaden their applications not only in optoelectronics but also in bioimaging and biosensing.
Publisher
Nature Communications
Published On
Jun 16, 2020
Authors
Siqi Li, Dangyuan Lei, Wei Ren, Xuyun Guo, Shengfan Wu, Ye Zhu, Andrey L. Rogach, Manish Chhowalla, Alex K.-Y. Jen
DOI
https://doi.org/10.1038/s41467-020-15016-2
Tags
perovskite quantum dots
water stability
optical properties
two-photon lasing
nanotechnology
optoelectronics
bioimaging

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