Latest Articles for Electronics

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

New silver precursor enhances electron beam writing for nanoscale structures.

A new method enhances stability in mechanical resonators, improving various device performances.

Scientists investigate how electrons and phonons influence materials' properties and applications.

Research explores electronic behaviors in twisted bilayer MoTe, revealing new quantum states.

Research reveals unique properties of twisted bilayer MoTe materials.

TbTiBi reveals complex magnetic and electronic properties in kagome metals.

Research reveals the significance of phase changes in Rhenium disulfide for advanced applications.

Learn how modulo sampling improves ADC for better signal recovery.

Research reveals new properties of magnons and their potential technological uses.

Discover the role and future of nanowire lasers in technology.

Exploring how strain and lattice relaxation affect twisted bilayer graphene's electronic behavior.

Examining how quantum mechanics affects silicon carbide properties and applications.

Examining how self-heating impacts performance in advanced electronic devices.

Researchers improve gold's conductivity by embedding silver nanoparticles, revealing new electrical behaviors.

New techniques enhance our ability to study superlattices and their electronic properties.

Exploring the unique properties and uses of hexagonal materials in technology.

Investigating the superconducting properties and complexities of Sr2RuO4.

This study examines how electric fields affect Landau levels in graphene ribbons.

Graphullerene shows potential for groundbreaking applications in electronics and optics.

Researchers study how viscosity affects electron flow in advanced electronic materials.

This article examines how stacking patterns affect the properties of nitride MXenes.

Researchers study twisted multilayer MoTe for its unique electron properties and effects.

Research enhances spin coating techniques for complex geometries.

New methods promise better insights into high-temperature superconductors.

This study examines how nickel affects magnetic behavior in specific materials.

Discovering efficient methods for semiconductor model parameter extraction.

Research reveals unique electronic properties of twisted TMDs combined with graphene.

Exploring the unique properties and applications of ferromagnetic ferroelectric materials.

Research on trions in Xenes reveals potential technology applications.

A new method enhances accuracy in calculating sublimation enthalpies for molecular crystals.

Improving quantum computing efficiency through optimized spin qubits in silicon-germanium materials.

Research reveals promising 2D ferroelectric materials for future electronics.

Exploring the fascinating behavior of topological insulators and their connection to fermions.

This article explores how vacancies affect graphene's unique properties and potential applications.

Research reveals new insights into molecular junctions and their applications in electronics.

A new approach uses machine learning to predict tensor properties of crystalline materials accurately.

Exploring the role of DMC in studying 2D materials.

New methods for valleytronics using graphene and TMD materials show promise for future computing.

Researchers leverage machine learning to predict important Hubbard parameters for materials.