The exciton, an excited electron–hole pair bound by Coulomb attraction, plays a key role in
photophysics of organic molecules and drives practically important phenomena such as …

In organic solar cells, the charge-transfer (CT) electronic states that form at the interface
between the electron-donor (D) and electron-acceptor (A) materials have a crucial role in …

Recent advances in organic solar cells based on non-fullerene acceptors (NFAs) come with
reduced non-radiative voltage losses (Δ V nr). Here we show that, in contrast to the energy …

Searching the cost‐effective organic semiconductors is strongly needed in order to facilitate
the practice of organic solar cells (OSCs), yet to be fulfilled. Herein, we have succeeded in …

All‐polymer solar cells (all‐PSCs) have achieved impressive progress in photovoltaic
performance and stabilities recently. However, their power conversion efficiencies (PCEs) …

Using non‐halogenated solvents to process organic solar cells is preferable because they
are less harmful to human health. However, it is challenging to mitigate the delicate trade …

Bulk-heterojunction organic solar cells (OSCs) often suffer from morphological instability due
to thermo-or photoinduced molecular diffusion. To circumvent such instability, OSCs …

The success of nonfullerene acceptor (NFA) solar cells lies in their unique physical
properties beyond the extended absorption and suitable energy levels. The current study …

After introducing the concept of charge transfer (CT) complex formation by Mulliken and the
discovery of crystalline picrate (association of picric acid and aromatic hydrocarbons) by …

Compared with conventional inorganic solar cells (ISCs), energy loss (Eloss) in organic
solar cells (OSCs) is usually much higher, limiting their maximum achievable power …