The demand for building-integrated photovoltaics and portable energy systems based on
flexible photovoltaic technology such as perovskite embedded with exceptional flexibility …

The bandgap tunability of halide perovskites makes perovskite solar cells excellent building
blocks for multijunction architectures that can overcome the fundamental efficiency limits of …

The sequential deposition process has demonstrated the great possibility to achieve a
photolayer architecture with an ideal gradient phase separation morphology, which has a …

Realizing bicontinuous fibrillar charge transport networks in the photoactive layer has been
considered a promising method to achieve high‐efficiency organic solar cells (OSCs); …

Adjusting the energy levels and fibrillar morphology is paramount to enhancing the power
conversion efficiency (PCE) of organic solar cells (OSCs). In the present study, an increase …

The high non-radiative energy loss is a bottleneck issue that impedes the improvement of
organic solar cells. The formation of triplet exciton is thought to be the main source of the …

Both the regional isomerization and selenium‐substitution of the small molecular acceptors
(SMAs) play significant roles in develo** efficient organic solar cells (OSCs), while their …

Sustainable food and energy supply on limited agricultural land is a major challenge under
the growing global population. The current large-scale plastic-covered traditional …

In pursuing high stability and power conversion efficiency for organic photovoltaics (OPVs),
a sequential deposition (SD) approach to fabricate active layers with p–i–n structures (where …

The knowledge of minority and majority charge carrier properties enables controlling the
performance of solar cells, transistors, detectors, sensors, and LEDs. Here, we developed …