posted on 2024-09-13, 21:43authored bySameera Sh. Mohammed Ameen, Khalid M. Omer
Red-emitting
metal–organic frameworks (MOFs) are still mostly
based on the use of lanthanides or functionalization with red fluorophores.
However, production of transition-metal-based MOFs with red-emitting
is scarce. This work reports on the synthesis of a novel dual-state
red-emitting Zn-based MOF (denoted as UoZ-7) with the capability to
detect target molecules in dual state, in solution, and as solid on
paper. UoZ-7 gives strong red emission when excited in the solution
and in the solid state with 365 nm ultraviolet (UV) lamp irradiation.
Coordination-induced emission is the mechanism for the red emission
enhancement in the MOF as a restriction of intramolecular rotation
occurred to the ligand within the framework structure. UoZ-7 was successfully
used for tetracycline (TC) using dual-mode detection, fluorescence-based
ratiometry, and color tonality, in the dual state, in solution, and
on the paper. TC molecules adsorb on the red-emitting UoZ-7 surface,
and a yellow-greenish color emerges due to aggregation-induced emission
between TC and UoZ-7. Concurrently, the inner filter effect diminishes
the red emission of UoZ-7. The dual-mode or dual-state detection platform
provides a simple and reliable fast method for the detection of TC
on-site in various environmental and biomedical applications. Moreover,
red-emitting UoZ-7 will have further luminescence-based biomedical
applications.