Study of the Synthesis and Application of a Fluorescence‐Enhanced Mg²⁺ Probe

Abstract: A Schiff base fluorescent probe compound H2L (N′‐(4‐bromo‐2‐hydroxy‐benzylidene)‐3‐hydroxy‐2naphthohydrazide) was synthesized using 3‐hydroxy‐2‐naphthoic acid hydrazide as raw material. The structure of H2L was characterized by NMR, IR, MS, and XRD methods. The fluorescence performance of H2L was studied by UV and FS. The results show that in 1 : 4 water system /DMSO solution (water system: 20 % triethanolamine:0.1 mol/L L‐cysteamine acid=1 : 1), H2L can be used to quickly identify Mg2+ with an obvious fluores… Show more

“…The plot of the fluorescence intensity versus Cu 2+ concentration exhibited a good linear relationship with R 2 =0.998. The limit of detection was calculated to be 39.4 nM from the equation LOD=3σ/k, [15,24–26] Which was much lower than the maximum allowable level of inorganic Cu 2+ in drinking water (1.3 ppm, ∼20 μM) permitted by the EPA (Environmental Protection Agency) [20]…”

A Selective and Reversible Fluorescent Probe for Cu²⁺ and GSH Detection in Aqueous Environments

“…The plot of the fluorescence intensity versus Cu 2+ concentration exhibited a good linear relationship with R 2 =0.998. The limit of detection was calculated to be 39.4 nM from the equation LOD=3σ/k, [15,24–26] Which was much lower than the maximum allowable level of inorganic Cu 2+ in drinking water (1.3 ppm, ∼20 μM) permitted by the EPA (Environmental Protection Agency) [20]…”

A Selective and Reversible Fluorescent Probe for Cu²⁺ and GSH Detection in Aqueous Environments

A novel polyhedral oligomeric silsesquioxane nanohybrid fluorescent sensor designed based on an osmotic mechanism for specific detection and intelligent scavenging of magnesium ions

The design of multifunctional fluorescent probe for detecting Zn2+/ ClO−/H2O and application in high-security level information encryption