Dual-Emission Metal–Organic Framework for Highly Selective Ratiometric Sensing of Lithium(I) Ions in Aqueous Solution

Abstract: The development of highly selective and sensitive detection methods for lithium ions in various environments, such as aqueous or battery application, is highly sought. However, it remains elusive due to the small radius and weak coordination ability of lithium ions. Considering a metal−organic framework (MOF) possesses plentiful open coordination sites and an adjustable pore size, the welldesigned MOF would be an ideal platform for the selective detection of Li + . Herein, a novel dual-emission luminescent met… Show more

“…Wang and co-workers prepared dual-emission luminescent Co-HIAT, realizing the proportional fluorescence detection of Li + . 62 Co-HIAT showed both 340 nm ligand base emission and 410 nm charge transition emission between metal ions and ligands. The rationally located hydroxyl and carboxyl oxygen atoms in the Co-HIAT channel interact with Li + , resulting in the emission being quenched at 340 nm and increased at 410 nm.…”

Fluorescence sensing and device fabrication with luminescent metal–organic frameworks

“…Wang and co-workers prepared dual-emission luminescent Co-HIAT, realizing the proportional fluorescence detection of Li + . 62 Co-HIAT showed both 340 nm ligand base emission and 410 nm charge transition emission between metal ions and ligands. The rationally located hydroxyl and carboxyl oxygen atoms in the Co-HIAT channel interact with Li + , resulting in the emission being quenched at 340 nm and increased at 410 nm.…”

Fluorescence sensing and device fabrication with luminescent metal–organic frameworks

Synthesis of Cd‐MOF and Eu³⁺@Cd‐MOF as Multitarget Sensors for Simultaneous Sensing Cr (VI) Anion and 4‐NA

Recent advances in metal-organic framework (MOF)-based agricultural sensors for metal ions: a review