Organic photovoltaics are an important part of a next‐generation energy‐harvesting
technology that uses a practically infinite pollutant‐free energy source. They have the …

Layer-by-layer (LbL) processing, otherwise known as sequential deposition, is emerging as
the most promising strategy for fabrication of active layers in organic photovoltaic (OPV) …

During the past decade, time-resolved microwave conductivity (TRMC) has evolved to an
established, powerful technique to study photoactive layers. With this feature paper, we aim …

Organic solar cells (OSCs) have attracted wide attention due to their economy,
environmental protection, and potential for large‐scale commercial production. The layer‐by …

Two-dimensional covalent organic frameworks often π stack into crystalline solids that allow
precise spatial positioning of molecular building blocks. Inspired by the hydrogen-bonded G …

Layer‐by‐layer (LL) processes, ie, sequential deposition of different active layers, are widely
used in the fabrication of organic solar cells (OSCs). Recently, LL vacuum deposition and LL …

Design rules are presented for significantly expanding sequential processing (SqP) into
previously inaccessible polymer: fullerene systems by tailoring binary solvent blends for …

As effective building blocks for high-mobility transistor polymers, oligothiophenes are
receiving attention for polymer solar cells (PSCs) because the resulting polymers can …

The ability to control direct electron transfer can facilitate the development of new molecular
electronics, light-harvesting materials, and photocatalysis. However, control of direct …

Although most polymer/fullerene-based solar cells are cast from a blend of the components
in solution, it is also possible to sequentially process the polymer and fullerene layers from …