Persistent luminescence nanoparticles/hierarchical porous ZIF-8 nanohybrids for autoluminescence-free detection of dopamine

Accurate quantitative detection of biomarkers in complex samples is of remarkable significance for clinical diagnosis and follow-up therapy, which remains challenging due to the severe interference from sample matrix. Herein, a background-free sensing platform toward ultrasensitive dopamine (DA) det...

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Veröffentlicht in:	Sensors and actuators. B, Chemical Chemical, 2022-04, Vol.357, p.131470, Article 131470
Hauptverfasser:	Yao, Tianlin, Dong, Gaoqiu, Qian, Shiyu, Cui, Yu, Chen, Xiang, Tan, Tingting, Li, Lingling
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Sprache:	eng
Schlagworte:	Biomarkers Biosensing Biosensors Dopamine Electron transfer Hierarchical porosity Imidazole Luminescence Metal-organic frameworks Nanoparticles Near infrared radiation Persistent luminescence Selectivity Trivalent chromium
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creator	Yao, Tianlin Dong, Gaoqiu Qian, Shiyu Cui, Yu Chen, Xiang Tan, Tingting Li, Lingling
description	Accurate quantitative detection of biomarkers in complex samples is of remarkable significance for clinical diagnosis and follow-up therapy, which remains challenging due to the severe interference from sample matrix. Herein, a background-free sensing platform toward ultrasensitive dopamine (DA) detection is developed based on a multifunctional nanohybrid by integrating ultrasmall Cr3+-doped zinc gallate (ZnGa2O4:Cr3+, ZGC) persistent luminescence nanoparticles (PLNPs) with hierarchical porous zeolite imidazole framework-8 (HZIF-8). The ZGC PLNPs decorated on the surface of HZIF-8 have long-lasting near-infrared emission and act as signal element, whereas the hierarchically porous HZIF-8 scaffold can serve as an analyte concentrator to enrich DA around ZGC PLNPs. Furthermore, the oxidative polymerization of enriched DA is favored in the alkaline microenvironment provided by 2-methylimidazole in HZIF-8, producing polydopamine (PDA) which finally quenches the luminescence of ZGC/HZIF-8 via photoinduced electron transfer (PET) mechanism. Under the optimized conditions, the proposed nanoplatform exhibits excellent sensitivity and selectivity for the determination of DA in the range of 0.0025–75 μM with a limit of detection down to 0.0010 μM. Benefiting from the superior excitation-free persistent luminescence, this platform also shows satisfactory feasibility in quantitative determination of DA in human serum samples. This new strategy can contribute to the development of PLNPs-based biosensors for practical application in clinical analysis. •A background-free sensor for ultrasensitive dopamine (DA) detection is proposed.•Ultrasmall ZnGa2O4:Cr3+ (ZGC) acts as excitation-free persistent luminescence probe.•Hierarchical porous HZIF-8 serves as both ZGC and analyte concentrator.•The sensor enables excellent feasibility for detecting DA in practical samples.
doi_str_mv	10.1016/j.snb.2022.131470
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Herein, a background-free sensing platform toward ultrasensitive dopamine (DA) detection is developed based on a multifunctional nanohybrid by integrating ultrasmall Cr3+-doped zinc gallate (ZnGa2O4:Cr3+, ZGC) persistent luminescence nanoparticles (PLNPs) with hierarchical porous zeolite imidazole framework-8 (HZIF-8). The ZGC PLNPs decorated on the surface of HZIF-8 have long-lasting near-infrared emission and act as signal element, whereas the hierarchically porous HZIF-8 scaffold can serve as an analyte concentrator to enrich DA around ZGC PLNPs. Furthermore, the oxidative polymerization of enriched DA is favored in the alkaline microenvironment provided by 2-methylimidazole in HZIF-8, producing polydopamine (PDA) which finally quenches the luminescence of ZGC/HZIF-8 via photoinduced electron transfer (PET) mechanism. Under the optimized conditions, the proposed nanoplatform exhibits excellent sensitivity and selectivity for the determination of DA in the range of 0.0025–75 μM with a limit of detection down to 0.0010 μM. Benefiting from the superior excitation-free persistent luminescence, this platform also shows satisfactory feasibility in quantitative determination of DA in human serum samples. This new strategy can contribute to the development of PLNPs-based biosensors for practical application in clinical analysis. •A background-free sensor for ultrasensitive dopamine (DA) detection is proposed.•Ultrasmall ZnGa2O4:Cr3+ (ZGC) acts as excitation-free persistent luminescence probe.•Hierarchical porous HZIF-8 serves as both ZGC and analyte concentrator.•The sensor enables excellent feasibility for detecting DA in practical samples.</description><identifier>ISSN: 0925-4005</identifier><identifier>EISSN: 1873-3077</identifier><identifier>DOI: 10.1016/j.snb.2022.131470</identifier><language>eng</language><publisher>Lausanne: Elsevier B.V</publisher><subject>Biomarkers ; Biosensing ; Biosensors ; Dopamine ; Electron transfer ; Hierarchical porosity ; Imidazole ; Luminescence ; Metal-organic frameworks ; Nanoparticles ; Near infrared radiation ; Persistent luminescence ; Selectivity ; Trivalent chromium</subject><ispartof>Sensors and actuators. 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B, Chemical</title><description>Accurate quantitative detection of biomarkers in complex samples is of remarkable significance for clinical diagnosis and follow-up therapy, which remains challenging due to the severe interference from sample matrix. Herein, a background-free sensing platform toward ultrasensitive dopamine (DA) detection is developed based on a multifunctional nanohybrid by integrating ultrasmall Cr3+-doped zinc gallate (ZnGa2O4:Cr3+, ZGC) persistent luminescence nanoparticles (PLNPs) with hierarchical porous zeolite imidazole framework-8 (HZIF-8). The ZGC PLNPs decorated on the surface of HZIF-8 have long-lasting near-infrared emission and act as signal element, whereas the hierarchically porous HZIF-8 scaffold can serve as an analyte concentrator to enrich DA around ZGC PLNPs. Furthermore, the oxidative polymerization of enriched DA is favored in the alkaline microenvironment provided by 2-methylimidazole in HZIF-8, producing polydopamine (PDA) which finally quenches the luminescence of ZGC/HZIF-8 via photoinduced electron transfer (PET) mechanism. Under the optimized conditions, the proposed nanoplatform exhibits excellent sensitivity and selectivity for the determination of DA in the range of 0.0025–75 μM with a limit of detection down to 0.0010 μM. Benefiting from the superior excitation-free persistent luminescence, this platform also shows satisfactory feasibility in quantitative determination of DA in human serum samples. 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subjects	Biomarkers Biosensing Biosensors Dopamine Electron transfer Hierarchical porosity Imidazole Luminescence Metal-organic frameworks Nanoparticles Near infrared radiation Persistent luminescence Selectivity Trivalent chromium
title	Persistent luminescence nanoparticles/hierarchical porous ZIF-8 nanohybrids for autoluminescence-free detection of dopamine
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