Hexaphenyl-carbo-benzene and a substituted homologue were prepared via an efficient route, and characterized by crystallography and voltammetry with the view of studying charge transport properties within thin films.
In this work, scanning
probe microscopies (SPMs) are used for the
analysis of PBDB-T, ITIC, and PBDB-T:ITIC layers of solar cells (OSCs).
Scanning tunneling microscopy (STM) images of PBDB-T reveal that thin
films (<1 nm) tend to form worm-like pattern (amorphous type) domains
with an average chain-to-chain distance of 950 pm; likewise, STM images
of ITIC show that side arms form chain-like patterns. STM images of
PBDB-T:ITIC blend suggest why PBDB-T domains could facilitate charge
dissociation. Further, a strong interchain π–π
interaction of the ITIC molecules could promote self-organization,
and under the mutual interaction with the PBDB-T polymer, it could
influence the pathway formation for electron transport. Moreover,
when correlating electrostatic force microscopy (EFM) and photoconductive
atomic force microscopy (pc-AFM), the blend morphology and its electrical/electronic
properties are determined; the ideal domain size of PBDB-T:ITIC blend
phases for maximizing the generated photocurrent is 15–35 nm.
Furthermore, phase contrast and surface electric potential characteristics
with Kelvin probe force microscopy (KPFM) are measured to examine
additional details about the surface and potential changes due to
the domain differences in the active layer. OSCs based on the nonfullerene
PBDB-T:ITIC active layer reach an average power conversion efficiency
(PCE) of 9.1% (best 9.2%).
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