Latest Articles for Semiconductors

Research sheds light on how material interfaces affect electronic device performance.

Exploring the impact of quantum dots on electronics and photonics.

Research highlights the dielectric properties of amorphous Boron Nitride for electronics.

New model sheds light on unique properties of twisted transition metal dichalcogenides.

This study examines how transition metal doping alters TiS's magnetic and electronic properties.

Exploring quantum dots' unique properties and their potential in communication and technology.

Research reveals how strain alters TaNiS semiconductor properties.

Discover how sliding layers of atoms influence electrical properties.

Research reveals scandium alloyed aluminum nitride's potential in electro-optic applications.

An overview of the issues in transferring qubits within semiconductor quantum dots.

Discover the role and future of nanowire lasers in technology.

Exploring exciton dissociation for better solar cells and LEDs.

Research reveals new potential of high-harmonic generation in quantum technology applications.

GeS shows promise for future electronic and optoelectronic technologies due to its unique properties.

CdSe nanoplatelets offer exciting optical properties for various applications in technology.

SubLock improves IC security against attacks while keeping costs low.

Study reveals impact of local density on Majorana states in semiconductor-superconductor devices.

A look into how polarons affect lithium niobate's properties and applications.

Examining excitons reveals new opportunities for improving organic semiconductors.

Exploring how light changes the mechanical properties of zinc sulfide.

Research combines granular aluminium and germanium quantum dots for advanced quantum device development.

Study shows how layer thickness affects selenium vacancies in two-dimensional semiconductors.

Trikarenos chip offers reliable performance in automotive and aerospace applications under high radiation.

Chiral tellurium showcases fascinating electrical behavior influenced by its structure and magnetic fields.

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

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

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

Study reveals how metal additions enhance connections in electronic materials.

Innovative backgate integration enhances germanium-based quantum devices.

New neural networks improve semiconductor behavior modeling and prediction accuracy.

New control method improves positioning accuracy in lithographic systems for semiconductors.

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

A novel approach enhances accuracy in semiconductor voltage predictions while reducing data needs.

This study delves into the unique electronic features of Ta NiSe at low temperatures.

Hybrid metal-semiconductor devices reveal complex electron behaviors under varying conditions.

Exploring the role of organic polariton systems in optical computing technologies.

Research on hole spin qubits shows promise for quantum computing technology.

Investigating the unexpected signals in low-energy semiconductor detectors.

Research shows carbide interlayers can enhance heat transfer in electronics.

SPICED offers advanced detection of analog Trojans in integrated circuits.