3-Hydroxyphenylboronic Acid-Based Carbon Dot Sensors for Fructose Sensing.
Diana M A CristaGuilherme P C MelloOlena ShevchukRicardo M S SendãoEliana F C SimõesJoão M M LeitãoLuís Pinto da SilvaJoaquim Carlos Gomes Esteves da SilvaPublished in: Journal of fluorescence (2019)
The selective fluorescence sensing of fructose was achieved by fluorescence quenching of the emission of hydrothermal-synthesized carbon quantum dots prepared by 3-hydroxyphenylboronic acid. Quantification of fructose was possible in aqueous solutions with pH of 9 (Limit of Detection LOD and Limit of Quantification LOQ of 2.04 and 6.12 mM), by quenching of the emission at 376 nm and excitation ~380 nm with a linearity range of 0-150 mM. A Stern-Volmer constant (KSV) of 2.11 × 10-2 mM-1 was obtained, while a fluorescent quantum yield of 31% was calculated. The sensitivity of this assay towards fructose was confirmed by comparison with other sugars (such as glucose, sucrose and lactose). Finally, the validity of the proposed assays was further demonstrated by performing recovery assays in different matrixes. Graphical Abstract.