4.7 Article

Glucose and pH responsive fluorescence detection system based on simple synthesis of silicon-coated perovskite quantum dots

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PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.saa.2022.122212

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Silicon -coated perovskite quantum dots; Moisture stability; Oxygen stability; pH; Glucose

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In this study, silicon-coated CsPbBr3 quantum dots (CsPbBr3@SiO2) were synthesized to improve their stability in ambient air. The SiO2 coating effectively protected the PQDs from water and oxygen, maintaining their structural stability. CsPbBr3@SiO2 showed excellent dispersibility in aqueous solution and remained stable for more than 2 months. It exhibited high sensitivity to pH and was successfully applied to the detection of glucose in human serum with satisfactory performance.
Perovskite quantum dots (PQDs) are extremely unstable in ambient air due to their inherent structural instability, which limits the wide application of PQDs. In this work, silicon-coated CsPbBr3 PQDs (CsPbBr3@SiO2) was synthesized via a simple method. The SiO2 coating effectively isolated PQDs from water and oxygen in the environment, which were the main elements that destroyed the structure stability of PQDs. The synthesized CsPbBr3@SiO2 can be stored in water for more than 2 months and posessed wonderful dispersibility in aqueous solution. The fluorescence intensity remained unchanged within 7 days and only decreased by 11.9 % within 2 months. We found that CsPbBr3@SiO2 was extremely sensitive to environmental pH, and the fluorescence intensity decreased with the reduction of pH. In addition, an excellent linear relationship with pH value in the range of 1.0 similar to 5.0 was achieved. As we all known that glucose can be catalyzed by glucose oxidase to produce gluconic acid and hydrogen peroxide, in which a good deal of protons were produced and the pH was gradually lowered. Since CsPbBr3@SiO2 was stable to water and oxygen, and sensitive to ambient pH, we applied CsPbBr3@SiO2 to the detection of glucose. CsPbBr3@SiO2 showed fantastic selectivity and sensitivity to glucose, and the detection limit can even reach 18.5 mu M. Furthermore, CsPbBr3@SiO2 was successfully applied to the detection of glucose in the human serum with satisfactory performance.

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