Inverted perovskite solar cells (PSCs) have attracted considerable attention due to their
distinct advantages, including minimal hysteresis, cost‐effectiveness, and suitability for …

Interfacial engineering has long been a vital means of improving thin-film device
performance, especially for organic electronics, perovskites, and hybrid devices. It greatly …

Improving the intrinsic film quality of metal halide perovskites is very critical to increase the
power conversion efficiency and long-term stability of perovskite solar cells. Here we report …

The buried interface in perovskite solar cells (PSCs) is pivotal for achieving high efficiency
and stability. However, it is challenging to study and optimize the buried interface due to its …

Self‐assembled monolayers (SAMs) are widely employed as effective hole‐selective layers
(HSLs) in inverted perovskite solar cells (PSCs). However, most SAM molecules are …

Organic solar cells (OSCs) have experienced rapid progress with the innovation of near‐
infrared (NIR)‐absorbing small‐molecular acceptors (SMAs), while the unique electronic …

Effective passivation of defects at the buried interface between the perovskite absorber and
hole‐selective layer (HSL) is crucial for achieving high performance in inverted perovskite …

We report a highly crystalline self‐assembled multilayer (SAMUL) that is fundamentally
different from the conventional monolayer or disordered bilayer used for hole‐extraction in …

Photovoltaic technology presents a sustainable solution to address the escalating global
energy consumption and a reliable strategy for achieving net‐zero carbon emissions by …

Constructing low-dimensional/three-dimensional (LD/3D) perovskite solar cells can improve
efficiency and stability. However, the design and selection of LD perovskite cap** …