A novel Y/Eu co-doped Ln-MOF for ratiometric luminescent thermometer of high sensitivity

Abstract

Lanthanide metal-organic frameworks (Ln-MOFs) co-doped by mixed lanthanide ions is a preeminent candidate for ratiometric luminescence thermometers. In recent years, there are few studies on the synthesis of such MOFs by introducing Ln3+ ions of no luminescent properties such as Y3+. Herein, a novel Y/Eu co-doped Ln-MOF (Y0.95Eu0.05NDPA, H4NDPA = 5,5′-naphthalene-1,4-diyl-diisophthalic acid) was synthesized via solvothermal methods, which showed good phase purity and thermal stability. Compared with EuNDPA, the Y3+ ions in Y0.95Eu0.05NDPA dilute the molar concentration of Eu3+, causing the emerge of ligand emission band. The luminescence intensity ratio of organic ligands and Eu3+ owns a good exponential dependence on temperature variation. As investigated, Y0.95Eu0.05NDPA owns the merits including a wide temperature sensing range (303–423 K), high relative sensitivity (3.04 %·K-1 at 423 K), good spectral repeatability (>92 %) and distinct emission color change from red to blue. This novel Y0.95Eu0.05NDPA ratiometric thermometer is expected to promote the application and development of dual-emission MOF materials in the field of microelectronic temperature measurement.