Latest Articles for Electronics

Research reveals unique electronic states in AB-stacked MoTe/WSe materials.

Enhancing superconducting diode efficiency through Rashba nanowires and magnetic fields.

SuperFlow improves the design of superconducting circuits for better efficiency and performance.

Research on ultrathin BaTiO3 films shows promise for future electronic devices.

Exploring the connection between fractal lattices and topological insulators.

A new approach uses machine learning to improve thin film property measurements.

RoSE-Opt automates analog circuit design for improved efficiency and reliability.

Altermagnetism reveals unique behaviors in magnetic materials and their potential applications.

Research reveals complex interactions between magnetism and electricity in frustrated magnets.

This article examines how strain influences the electronic behavior of ZrSiS.

Study reveals insights into CrSBr's spin textures for advanced electronics.

Researchers model memristors to improve performance in data storage and processing.

This article examines how spin polarization can be analyzed in Anderson impurities.

Research on TaS2 reveals new insights into charge density waves and electronic behavior.

ELEQTRONeX enhances understanding of non-equilibrium transport in nanomaterials.

A study on electron spin properties in EuZn Sb enhances material knowledge.

Researchers develop a technique to measure electron states in topological chains.

CsGeX materials exhibit unique properties for enhanced electronic applications.

MnTe offers unique magnetic properties, paving the way for advanced technologies.

Discover how altermagnets like Ce X host unique particles and their potential uses.

This article discusses how edge roughness affects the performance of two-dimensional materials.

Study reveals insights into heat and electricity movement in 2D materials.

Study reveals how metal additions enhance connections in electronic materials.

Research reveals efficient polarization switching in two-dimensional sliding ferroelectrics.

Research shows how mechanical strain alters graphene's electronic characteristics.

Explore how boundary criticality affects materials with unique properties.

Research focuses on improving ferroelectric devices for efficient memory storage and AI.

Innovative backgate integration enhances germanium-based quantum devices.

Research reveals promising properties of RTO nanocrystals for advanced memory devices.

A look at the new flexible multi-port memory design for modern devices.

This article examines how small variations influence superconductors and their behavior.

Chern insulators show promise in innovative technologies like quantum computing.

Research reveals new NbS - 2D compounds with unique properties for future tech applications.

Researchers develop stable domain-wall structures using ferroelectric materials for advanced electronics.

This article explores a new transistor design made from gallium oxide.

Exploring the significance and applications of magnetic van der Waals materials.

Research reveals unique properties of twisted TMD layers for future technology.

Exploring the unique properties of magnons in altermagnets.

Examining how diffusive memristors generate voltage spikes and their potential uses.

Enhancing ToF-SIMS methods to accurately analyze semiconductor structures and improve electronic devices.