The ternary strategy has been proved to be an efficient approach to improve the power
conversion efficiency (PCE) of organic solar cells (OSCs). However, little attention has been …

The use of a ternary component is a facile and effective method to further improve the device
performances of binary organic solar cells (OSCs) comprising one donor and one acceptor …

Efficient ternary organic solar cells (OSCs) are fabricated by employing a polymer PBT1‐C
as the donor and two non‐fullerene materials, MeIC and MeIC2, as one alloyed acceptor …

The ternary strategy, introducing a third component into a binary blend, opens a simple and
promising avenue to improve the power conversion efficiency (PCE) of organic solar cells …

The ternary blending strategy of introducing a third component into binary organic solar cells
(BOSCs) is a feasible and efficient strategy to optimize the performance of BOSCs. Ternary …

Ternary blend organic solar cells integrating multiple donor or acceptor materials in one
photoactive layer have emerged as a promising strategy to simultaneously improve all …

A ternary structure has been demonstrated as being an effective strategy to realize high
power conversion efficiency (PCE) in organic solar cells (OSCs); however, general materials …

Constructing ternary structure is one of the most effective design strategies to break the
efficiency ceiling of traditional binary organic solar cells (OSCs). Here, a new Y-series non …

High‐performance ternary organic solar cells are fabricated by using a wide‐bandgap
polymer donor (bithienyl‐benzodithiophene‐alt‐fluorobenzotriazole copolymer, J52) and …

Ternary and tandem strategies are effective methods for improving the photovoltaic
performance of organic solar cells (OSCs). Here an asymmetric wide-bandgap nonfullerene …