posted on 2023-01-10, 14:09authored byZuofang Feng, Tao Hai, Lulu Zhang, Yilong Lei
Fractals are quite normal in nature. However, fractal
self-assembly
of organic semiconductors remains challenging. Herein, we develop
a facile solution assembly route to access organic microwires (MWs)
comprising an oligo(p-phenylenevinylene) derivative
(OPV-A) with and without branching. Instead of kinetically controlled
β-OPV-A microrods (MRs), thermodynamically favored α-OPV-A
gives fractal branching MW patterns. As-prepared 9,10-dicyanoanthracene
(DCA) alloyed assemblies function as seeds to allow for the heteroepitaxial
growth of branching α-OPV-A MWs via either coassembly or two-step
seeded growth. Consequently, fractal MWs with single- and multisite
growth were both achieved, accompanied by tailorable branching densities
and hierarchies. Thermodynamic control and a well-matched epitaxial
relationship should be crucial to the formation of fractal MW patterns.
Importantly, the aligned α-OPV-A MW array functions as a multichannel
optical gain medium and exhibits low-threshold amplified spontaneous
emission (ASE). The present work deepens the research into fractal
self-assembly of functional organic semiconductors.