posted on 2017-08-09, 14:34authored byPapri Sutar, Tapas Kumar Maji
The recent upsurge in research on
coordination polymer gels (CPGs) stems from their synthetic modularity,
nanoscale processability, and versatile functionalities. Here we report
self-assembly of an amphiphilic, tripodal low-molecular weight gelator
(L) that consists of 4,4′,4-[1,3,5-phenyl-tri(methoxy)]-tris-benzene
core and 2,2′:6′,2″-terpyridyl termini, with
different metal ions toward the formation of CPGs that show controllable
nanomorphologies, tunable emission, and stimuli–responsive
behaviors. L can also act as a selective chemosensor
for ZnII with very low limit of detection (0.18 ppm) in
aqueous medium. Coordination-driven self-assembly of L with ZnII in H2O/MeOH solvent mixture results
in a coordination polymer hydrogel (ZnL) that exhibits
sheet like morphology and charge-transfer emission.
On the other hand, coordination of L with TbIII and EuIII in CHCl3/tetrahydrofuran solvent
mixture results in green- and red-emissive CPGs, respectively, with
nanotubular morphology. Moreover, precise stoichiometric control of L/EuIII/TbIII ratio leads to the formation
of bimetallic CPGs that show emissions over a broad spectral range,
including white-light-emission. We also explore the multistimuli responsive
properties of the white-light-emitting CPG by exploiting the dynamics
of LnIII-tpy coordination.