Organic solar cells (OSCs) were dominated by donor–acceptor blends based on polymer
donors and fullerene acceptors for nearly two decades. In the past, apprehensions about the …

At present, most of state‐of‐the‐art power conversion efficiencies (PCEs) of organic solar
cells (OSCs) are achieved from the photoactive materials involving donor–acceptor (D–A) …

Polythiophenes (PTs) are promising electron donors for organic solar cells (OSCs) due to
their low production cost. However, the device performance of PTs in OSCs is rather poor …

Manipulating the backbone of small molecule acceptors (SMAs) is of particular importance
in developing efficient organic solar cells (OSCs). The common design is constructing 2‐arm …

Considering the worth of molecular designing, ADA type four small donor (SM1-SM4)
photoactive materials comprised of DTS core, substituted with push-pull acceptors at …

Molecular engineering of azaBODIPY based molecule was done to construct four novel
small photoactive materials (SM1-SM4) by varying terminal thiophene spaced acceptors for …

A novel non‐volatile additive, fluorinated bis (perfluorophenyl) pimelate (BF7), is
demonstrated to effectively improve both the efficiency and thermal stability of a highly …

The open-circuit voltage (Voc) of the non-fullerene acceptors-based organic solar cells
(NFAs-OSCs) under device operation conditions, as an essential photovoltaic parameter, is …

Organic solar cells (OSCs) based on poly (3-hexylthiophene)(P3HT) have achieved a
significant enhancement of the power conversion efficiency (PCE), mainly driven by the …

Mercerization can improve the utilization rate of dyes in the dyeing process, and reduce the
discharge of washing wastewater. However, the effect and mechanism of mercerization is …