The emergence of perovskite photovoltaic technology is transforming the landscape of solar
energy. Its rapid development has been driven by the advances in our understanding of the …

With rapid progress in a power conversion efficiency (PCE) to reach 25%, metal halide
perovskite-based solar cells became a game-changer in a photovoltaic performance race …

To obtain highly efficient and stable perovskite solar cells (PSCs), defects must be removed
at the grain boundaries of the perovskite films. Most surface-treatment methods involve …

As game‐changers in the photovoltaic community, perovskite solar cells are making
unprecedented progress while still facing grand challenges such as improving lifetime …

Hybrid metal-halide perovskite solar cells (PVSCs) have drawn unprecedented attention
during the last decade due to their superior photovoltaic performance, facile and low-cost …

Even though the mesoporous-type perovskite solar cell (PSC) is known for high efficiency,
its planar-type counterpart exhibits lower efficiency and hysteretic response. Herein, we …

There exists a considerable density of interaggregate grain boundaries (GBs) and intra-
aggregate GBs in polycrystalline perovskites. Mitigation of intra-aggregate GBs is equally …

In several photovoltaic (PV) technologies, the presence of electronic defects within the
semiconductor band gap limit the efficiency, reproducibility, as well as lifetime. Metal halide …

Crystal growth regulation has become an effective solution to reduce the defects at grain
boundaries (GBs) and surfaces of perovskite films for better photovoltaic performances …

Even though the power conversion efficiency (PCE) of rigid perovskite solar cells is
increased to 22.7%, the PCE of flexible perovskite solar cells (F‐PSCs) is still lower. Here, a …