posted on 2024-06-06, 10:31authored byVipin Mishra, Arthur Mantel, Peter Kapusta, Alexander Prado-Roller, Hidetsugu Shiozawa
Optical properties of molecules change drastically as
a result
of interactions with surrounding environments as observed in solutions,
clusters, and aggregates. Here, we make 7,7,8,8-tetracyanoquinodimethane
(TCNQ) highly luminescent by encapsulating it in crystalline melamine.
Colored single crystals are synthesized by slow evaporation of aqueous
tetrahydrofuran solutions of melamine and TCNQ. Single-crystal X-ray
diffraction reveals the lattice structure of pure melamine, meaning
that the color is of impurities. Both mass spectrometry and UV–vis
spectroscopy combined with density-functional theory calculations
elucidate that the impurity species are neutral TCNQ and its oxidation
product, dicyano-p-toluoyl cyanide anion (DCTC–), whose concentrations in a melamine crystal can be
controlled by adjusting the molar ratio between melamine and TCNQ
in the precursor solution. Fluorescence excitation–emission
wavelength mappings on the precursor solutions illustrate dominant
emissions from DCTC– while the emission from TCNQ
is quenched by the resonance energy transfer to DCTC–. On the contrary, TCNQ in crystalline melamine is a bright fluorophore
whose emission wavelength centered at 450 nm with internal quantum
yields as high as 19% and slow fluorescence lifetimes of about 2 ns.
The method of encapsulating molecules into transparent melamine would
make many other molecules fluorescent in solids.