1 research outputs found
Photoluminescence of MEH-PPV Brushes, Pancakes, and Free Molecules in Solutions and Dry States
Photoluminescence (PL) of a conjugated
polymer MEH-PPV, polyÂ[2-methoxy-5-(2â˛-ethylhexyl)Âoxy)-1,4-phenylenevinylene],
grafted on a silicon wafer with controlled tether spacing was studied
to reveal the effects of molecular conformation, chain packing, and
mechanical stress. In the solvent-swollen state, the PL of the densely
grafted polymer (denoted âbrushesâ) was blue-shifted
substantially relative to the lightly grafted (denoted âpancakesâ)
and free polymers. As solvent evaporated, while for the brushes the
changes in PL were insignificant, the PL spectra of the pancakes underwent
large blue shifts and exhibited significant efficiency enhancements
up to âź175-fold. The solvent evaporation effects were attributed
to molecular deformations resulting from coil contraction on the substrate,
which gave rise to conjugation-disruptive kinks (blue shift) and segmental
stretching (PL enhancement) in the dried molecules. Moreover, heterojunctional
quenching was found significantly suppressed by the mechanical stresses.
Similar behavior was observed in dried free single molecules. These
results unveil the fundamental role of mechanical stresses, not only
indirectly through their influence on molecular conformations, but
directly via alterations of the excitonic behavior