Authors: López-Peña G, Ortiz-Mansilla E, Arranz A, Bogdan N, Manso-Silván M, Martín Rodríguez E
Today, diabetes mellitus is one of the most common diseases that affects the population on a worldwide scale. Patients suffering from this disease are required to control their blood-glucose levels several times a day through invasive methods such as piercing their fingers. Our NaGdF4: 5% Er3+, 3% Nd3+ nanoparticles demonstrate a remarkable ability to detect D-glucose levels by analysing alterations in their red-to-green ratio, since this sensitivity arises from the interaction between the nanoparticles and the OH groups present in the D-glucose molecules, resulting in discernible changes in the emission of the green and red bands. These luminescent sensors were implemented and tested on paper substrates, offering a portable, low-cost and enzyme-free solution for D-glucose detection in aqueous solutions with a limit of detection of 22 mg/dL. With this, our study contributes to the development of non-invasive D-glucose sensors, holding promising implications for managing diabetes and improving overall patient well-being with possible future applications in D-glucose sensing through tear fluid.
Keywords: Enzyme-free sensor; Glucose detection; Luminescent sensor; Non-invasive sensing; Paper-based sensor; Up-converting nanoparticles;
PubMed: https://pubmed.ncbi.nlm.nih.gov/38729020/
DOI: 10.1016/j.colsurfb.2024.113934