Carbon nitride (CN)-based heterojunction photocatalysts hold promise for efficient carbon
dioxide (CO 2) reduction. However, suboptimal production yields and limited selectivity in …

The reversible phase transitions in phase-change memory devices can switch on the order
of nanoseconds, suggesting a close structural resemblance between the amorphous and …

Resistive switching (RS) for nonvolatile data storage is a highly relevant field of research. Up
to now, RS devices are fabricated via semiconductor processing technologies. This poses …

Phase-change memory (PCM) is an emerging memory technology based on the resistance
contrast between the crystalline and amorphous states of a material. Further development …

The compositional tunability of non‐isovalent multicomponent chalcogenide thin films and
the extent of atomic ordering of their crystal structure is key to the performance of many …

Phase-change memory (PCM) technology has recently attracted a vivid interest for
neuromorphic applications, in-memory computing, and photonic integration due to the …

Control of the optical properties of a nanoparticle (NP) through its structural changes
underlies optical data processing, dynamic coloring, and smart sensing at the nanometer …

In this conceptual review, we present the optical and electronic characteristics of quantum
dots for the designing of organic synthesis experiments through the photocatalysis. We …

This study investigates the structural, morphological, and electrical properties of silicon (Si)
and germanium (Ge) quantum dots (QDs) embedded within thin SiO₂ layers in Metal …

Quantum dots (QDs) are gaining attention as a possible emissive material that might be
used in flexible optoelectronic and photonic systems. In the present work, the temperature …