Smartphone-Assisted EY@MOF-5-Based Dual-Emission Fluorescent Sensor for Rapid On-Site Detection of Daclatasvir and Nitenpyram.
Tehreem KanwalSufian RasheedMahjabeen HassanBatool FatimaHua-Ming XiaoSyed Ghulam MusharrafMuhammad Najam-Ul-HaqDilshad HussainPublished in: ACS applied materials & interfaces (2023)
Fluorescent metal-organic frameworks (MOFs) are promising sensing materials with tunable and robust structural properties and remarkable luminescent capabilities. In this study, a novel dual-emission fluorescent metal-organic framework (EY@MOF-5) composite is synthesized by a one-pot bottle-around-ship approach. Eosin Y (EY) is encapsulated in MOF-5 to enhance its fluorescence properties and selectivity, effectively addressing typical MOF-5 limitations. EY@MOF-5 serves as a versatile dual-functional fluorescent sensor for two different analytes, daclatasvir (DCT) and nitenpyram (NTP), showing an impressive linear range of 10-200 nM and 0.1-300 μM, with detection limits of 233 pM and 65 nM, respectively. The established method is ultrafast, highly sensitive, and extremely selective for DCT and NTP detection in complex biological and food samples. Fluorescence results are compared and validated with the recommended UPLC method. Then, a smartphone-integrated sensing system is introduced for on-site, real-time, and quantitative analysis of DCT and NTP. The smartphone-assisted intelligent sensing method manifests promising results for DCT and NTP monitoring in biological and food samples, demonstrating its promising potential for the on-site detection of biologically and environmentally significant analytes.
Keyphrases
- metal organic framework
- label free
- loop mediated isothermal amplification
- quantum dots
- living cells
- hepatitis c virus
- real time pcr
- energy transfer
- human health
- single molecule
- sensitive detection
- risk assessment
- combination therapy
- mass spectrometry
- particulate matter
- neural network
- molecularly imprinted
- liquid chromatography
- light emitting