Interface modification and bulk doping are two major strategies to improve the photovoltaic
performance of perovskite solar cells (PSCs). Dipolar molecules are highly favored due to …

Molecular electronics that can produce functional electronic circuits using a single molecule
or molecular ensemble remains an attractive research field because it not only represents …

The use of amino-terminated siloxanes as coupling interface for perovskite single crystals
(PSCs)/silicon integrated devices has been demonstrated to be an effective method toward …

Understanding the mechanisms of charge transport (CT) across biomolecules in solid-state
devices is imperative to realize biomolecular electronic devices in a predictive manner …

Miniaturization of individual selectors in crossbar‐array‐based artificial neural networks is
essential for the advancement of the underlying neuromorphic electronics, as it improves …

The integration of one‐selector‐one‐resistor crossbar arrays requires the selectors featured
with high nonlinearity and bipolarity to prevent leakage currents and any crosstalk among …

Solid‐state devices capable of controlling light‐responsive charge transport at the molecular
scale are essential for developing molecular optoelectronic technology. Here, a solid‐state …

As functional electrical devices advance, new strategies for regulating electrical properties
are essential for achieving diverse electrical performance. In this study, molecular …

Interface engineering, which efficiently optimizes the interfacial carrier collection and
recombination, has been proven to be of importance for the emerging colloidal quantum dot …

The development of next‐generation in‐memory and neuromorphic computing can be
realized with memory transistors based on 2D ferroelectric semiconductors. Among these …