Encapsulation of CHNHPbBr Perovskite Quantum Dots in MOF-5 Microcrystals As a Stable Platform for Temperature and Aqueous Heavy Metal Ion Detection

Overview

Journal Inorg Chem

Specialty Chemistry

Date 2018 Mar 31

PMID 29600846

Citations 15

Authors

Diwei Zhang

Yan Xu

Quanlin Liu

Zhiguo Xia

Affiliations

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Abstract

The stability issue of organometallic halide perovskites remains a great challenge for future research as to their applicability in different functional material fields. Herein, a novel and facile two-step synthesis procedure is reported for encapsulation of CHNHPbBr perovskite quantum dots (QDs) in MOF-5 microcrystals, where PbBr and CHNHBr precursors are added stepwise to fabricate stable CHNHPbBr@MOF-5 composites. In comparison to CHNHPbBr QDs, CHNHPbBr@MOF-5 composites exhibited highly improved water resistance and thermal stability, as well as better pH adaptability over a wide range. Luminescent investigations demonstrate that CHNHPbBr@MOF-5 composites not only featured excellent sensing properties with respect to temperature changes from 30 to 230 °C but also exhibited significant selective luminescent response to several different metal ions in aqueous solution. These outstanding characteristics indicate that the stable CHNHPbBr@MOF-5 composites are potentially interesting for application in fluorescence sensors or detectors.

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