Near-infrared-pumped photon upconversion in CsPbI3 and CaF2 :Yb3+/Ho3+ nanocomposites for bio-imaging application

All-inorganic CsPbX3 (X = Cl, Br, and I) perovskite quantum dots (PeQDs) have gained intensive attentions due to their excellent linear properties and promising applications in optoelectronics and photovoltaics. However, due to the limitation of nonlinear upconversion, the multiphoton absorption efficiency in PeQDs is very low. Here, we present the near-infrared-pumped upconversion (UC) luminescence of CsPbI3 PeQDs sensitized by CaF2 :Yb3+/Ho3+ hierarchical nanospheres (HNSs) in the CsPbI3 and CaF2 :Yb3+/Ho3+ nanocomposite structure. By introducing appropriate proportion of Br ions, UC luminescence can be easily tuned from 695 nm to 655 nm. The lifetimes of CsPbI3 PeQDs excitonic emissions are lengthened to several milliseconds during the energy transfer process from the long-lived Ho3+ to CsPbI3 PeQDs, which can be tuned by changing the Br/I ratio. The stability of CsPbI3 PeQDs is enhanced in the composites, which keeps 90 % photo luminescence after 30 days. The composites are printed on the flexible substrate for dual-mode fluorescent encryption anti-counterfeiting application, which display excellent fluorescence under the excitation of both ultraviolet and near-infrared light. Moreover, the CsPbI3 and CaF2 :Yb3+/Ho3+ nanocomposites are highly water-soluble, which demonstrate ultrastability and high biocompatibility in the cell imaging application. This work provides a new strategy to develop photon upconversion in PeQDs, and blazes a new trail for the development of multifunctional materials. (C) 2021 Published by Elsevier Ltd.

Automated summary

This study demonstrates near-infrared-pumped upconversion luminescence of CsPbI3 PeQDs sensitized by hierarchical nanospheres. The wavelength of upconversion luminescence can be tuned by controlling the ratio of Br ions, and the stability of CsPbI3 PeQDs is enhanced in the composites. The composites show excellent dual-mode fluorescence on flexible substrates, suitable for anti-counterfeiting applications.