Recently, perylene diimide (PDI) derivatives were attractive as the electron-deficient
acceptor materials in non-fullerene organic solar cells since Tang first used a single PDI …

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 …

Proper molecular packing is key to improving the performance of non-fullerene organic solar
cells (OSCs) based on perylene diimides (PDI). Herein, we implement a novel concept of …

Perylene diimides (PDIs) are a competitive class of non-fullerene acceptors in organic solar
cells (OSCs), owing to their advantages of low cost and good stability. Monomeric PDIs need …

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 …

Compared to fullerene materials, non-fullerene acceptor materials have in recent years
been more widely used in organic solar cell devices due to their optical properties and due …

Two different non‐fullerene small‐molecule acceptors, m‐PIB and p‐PIB, based on 9, 9′‐
bifluorenylidene (BF) and perylene diimide (PDI) were designed and synthesized. Four β …

Great progress has been made on solution-processed, bulkheterojunction (BHJ) fullerene-
based organic solar cells (OSCs), and the reported power conversion efficiency (PCE) …

Three-dimensional (3D) non-fullerene small molecule acceptors with imide-linked perylene
diimides (iPDI) on a 9, 9′-spirobi [9H-fluorene] core were designed, synthesized and …

We report perylene diimide (PDI) small molecules based on diphenylmethane,
triphenylmethane, and tetraphenylmethane cores, named PM-PDI2, PM-PDI3 and PM-PDI4 …