The bulk-heterojunction blend of an electron donor and an electron acceptor material is the
key component in a solution-processed organic photovoltaic device. In the past decades, a p …

Great advances in the subfield of non-fullerene acceptors have been achieved in the last
few years. Perylene diimides are among the most investigated due to their excellent electron …

With the advances in organic photovoltaics (OPVs), the invention of model polymers with
superior properties and wide applicability is of vital importance to both the academic and …

In organic solar cells (OSCs), the material design on photovoltaic layers and interlayers has
significantly contributed to the rapid progress of the device performance. Perylene-diimides …

Perylene diimide (PDI) derivatives functionalized at the ortho-position (αPPID, αPBDT) were
synthesized and used as electron acceptors in non-fullerene organic photovoltaic cells …

We investigate the charge-generation processes limiting the performance of low-offset
organic bulk-heterojunction solar cells by studying a series of newly synthesized PBDB-T …

Perylenediimides are ideal candidates for the substitution of fullerene derivatives as electron
acceptors in bulk heterojunction organic solar cells due to their extremely intense light …

We previously reported a perylenediimide (PDI) tetramer named TPE-PDI4 with a twisted 3D
structure (Figure 1c).[39] In the molecular structure of TPE-PDI4, four PDI units are …

In this paper, a new perylene diimide (PDI)-based acceptor Me-PDI4 with tetrahedral
configuration (or 3D) has been synthesized and characterized. Solution-processed organic …

Non-fullerene organic solar cells (NF-OSCs), in which an n-type organic molecule instead of
a fullerene derivative is utilized as the electron-acceptor material, have recently emerged as …