Organic solar cells (OSCs) are a promising photovoltaic technology that employs organic
semiconductor material as the photoactive layer, which has the unique advantages of light …

Self‐assembled molecules (SAMs) have shown great potential in the application of
optoelectronic devices due to their unique molecular properties. Recently, emerging …

Trap states in organic solar cells (OSCs) can capture free charges, leading to a reduction in
current density and significant energy loss. Since charge collection is primarily dependent …

Perovskite/organic tandem solar cells (PO-TSCs) have recently attracted increasing
attention due to their high efficiency and excellent stability. The interconnecting layer (ICL) is …

Solution‐processed hole transporting layers (HTLs) not only play a crucial role in realizing
high performance of organic solar cells (OSCs), but also possess excellent compatibility with …

In perovskite solar cells (PSCs), surface and interfacial conditions play a crucial role in
determining overall device performance. In typical pin architecture of wide bandgap (WBG …

Understanding the key factors influencing the stability of organic solar cells (OSCs) is
imperative for the advancement of organic electronics. Herein, a range of poly (3, 4 …

Inverted organic solar cells are attractive for commercialization. However, their power
conversion efficiency (PCE) still lags their conventional architecture counterpart. Here we …

In the field of organic photovoltaics, the power conversion efficiency of single junction solar
cells continues to improve. However, tandem organic solar cells are poised to push the …

Significant advancements in power conversion efficiency have been achieved in organic
solar cells with small molecule acceptors. However, stability remains a primary challenge …