posted on 2023-11-08, 19:49authored byChih-Hung Ko, Qirong Zhu, George Bullard, Francesco Tassinari, Mitsuhiko Morisue, Ron Naaman, Michael J. Therien
The
chirality-induced spin selectivity (CISS) effect allows thin-film
layers of chiral conjugated molecules to function as spin filters
at ambient temperature. Through solvent-modulated dropcasting of chiral l- and d-perylene diimide (PDI) monomeric building
blocks, two types of aggregate morphologies, nanofibers and nanodonuts,
may be realized. Spin-diode behavior is evidenced in the nanodonut
structures. Stacked PDI units, which form the conjugated core of these
nanostructures, dominate the nanodonut–Au electrode contact;
in contrast, the AFM tip contacts largely the high-resistance solubilizing
alkyl chains of the chiral monomers that form these nanodonuts. Current–voltage
responses of the nanodonuts, measured by magnetic conductive AFM (mC-AFM),
demonstrate substantial spin polarizations as well as spin current
rectification ratios (>10) that exceed the magnitudes of those
determined
to date for other chiral nanoscale systems. These results underscore
the potential for chiral nanostructures, featuring asymmetric molecular
junctions, to enable CISS-based nanoscale spin current rectifiers.