Synthesis of 2D VO 2 Nanosheets for the Dual Optical Sensor Method by Colorimetric and Fluorometric Sensing of Catecholamines.
Hemal WeerasingheMaheshika KumarihamyHui-Fen WuPublished in: ACS applied materials & interfaces (2023)
For the first time, we report a dual optical sensor method (DOSM) using novel 2D VO 2 nanosheets to act as fluorometric and colorimetric sensors to perform quantitative analysis of epinephrine (EP) and dopamine (DA). The wide color spectrum of the 2D vanadium oxidation series and specifically metastable blue 2D VO 2 nanosheets were used to develop a DOSM biosensor. DA and EP are the major catecholamines in the human body that play vital roles as neurotransmitters and stress-responsive hormones of the endocrine system, respectively. Accurate and selective detection of these biomolecules can assist in the diagnosis of many neuroendocrine system-related diseases. The newly synthesized 2D VO 2 nanosheet sensor showed bluish-green fluorescence as the first-ever fluorescence from 2D VO 2 nanosheets. This sensor showed dual-function sensing toward EP by a dominant color change and fluorescence quenching. It is capable of individually detecting and quantifying both EP and DA with high selectivity and sensitivity by using both colorimetry and fluorometry simultaneously, with the detection limits of 1.07 and 5.54 μM for colorimetric analysis, respectively, and 48.07 and 3.98 μM for fluorescence analysis, respectively. The DOSM sensor was directly applied to real urine samples and gained satisfactory recovery above 90% by means of spiked concentrations. This study has opened a new platform using the DOSM and the vanadium oxidation spectrum in a much more effective way for biosensing. The fluorescence capabilities of this metal oxide can be further applied to many sensor applications based on both fluorescence and colorimetric detection.
Keyphrases
- gold nanoparticles
- energy transfer
- single molecule
- label free
- hydrogen peroxide
- quantum dots
- sensitive detection
- reduced graphene oxide
- high resolution
- living cells
- loop mediated isothermal amplification
- fluorescent probe
- highly efficient
- endothelial cells
- visible light
- metal organic framework
- uric acid
- metabolic syndrome
- drug delivery
- solid phase extraction
- electron transfer