Substantial effort has been devoted to both scientific and technological developments of
wearable, flexible, semitransparent, and sensing electronics (eg, organic/perovskite …

Organic solar cells (OSCs) present some advantages, such as simple preparation, light
weight, low cost and large-area flexible fabrication, and have attracted much attention in …

Ferroelectric materials, because of their robust spontaneous electrical polarization, are
widely used in various applications. Recent advances in modelling, synthesis and …

Organic photovoltaic (OPV) technology has been developed and improved from a fancy
concept with less than 1% power conversion efficiency (PCE) to over 10% PCE, particularly …

Incorporating a dipole interlayer has been one of the most crucial interfacial engineering
strategies in organic and perovskite solar cells. An interfacial dipole brings steep shifts in …

Since the discovery of Rochelle salt a century ago, ferroelectric materials have been
investigated extensively due to their robust responses to electric, mechanical, thermal …

Multiferroic films are increasingly being studied for applications in solar energy conversion
because of their efficient ferroelectric polarization-driven carrier separation and above …

This article provides an overview on the recent development of solution processed organic,
inorganic, and hybrid interfacial materials for bulk-heterojunction polymer solar cells. The …

This work studied the influence of the methylammonium iodide/lead iodine precursor ratio
on the perovskite film morphology and device performance. Using a non-stoichiometric …

Two-dimensional (2D) ferroics, namely ferroelectric, ferromagnetic, and ferroelastic
materials, are attracting rising interest due to their fascinating physical properties and …