BiFeO3-based heterostructures have attracted much attention for potential applications due
to their room-temperature multiferroic properties, proper band gaps and ultrahigh …

Multiferroic materials promise a tantalizing perspective of novel applications in next-
generation electronic, memory, and energy harvesting technologies, and at the same time …

Ferroelectric perovskite oxides are emerging as a promising photoactive layer for
photovoltaic applications because of their very high stability and their alternative …

The rapid development of artificial intelligence technology has led to the urge for artificial
optoelectronic synapses with visual perception and memory capabilities. A new type of …

Improving the efficiency of charge separation (CS) and charge transport (CT) is essential for
almost all optoelectronic applications, yet its maximization remains a big challenge. Here we …

Bismuth ferrite BiFeO3 (BFO) is an important ferroelectric material for thin-film optoelectronic
sensing and potential photovoltaic applications. Its relatively large band gap, however, limits …

Improving the yield of reactive oxygen species and inhibiting the recombination of
photogenerated e-and h+ have been reliable strategies to accelerate the rate-limiting step …

Ever since the first observation of a photovoltaic effect in ferroelectric BaTiO3, studies have
been devoted to analyze this effect, but only a few attempted to engineer an enhancement …

Photonic devices, in comparison to their conventional electronic counterparts, are gaining
prominence as essential constituents of an increasing array of devices and applications …

New device concepts and new computing principles are needed to balance our ever‐
growing appetite for data and information with the realization of the goals of increased …