Latest Articles for Electronics

Improvements in Lince make hybrid system simulations simpler and more effective.

Examining the Hall effect's role in new materials and its potential applications.

Twistronics explores the potential of twisted layers in modern technology.

Discover how skyrmions could reshape future technology through unique properties.

A new model revolutionizes how we predict material properties.

Discover how pressure affects excitonic insulators like Ta NiSe.

Explore the fascinating world of superconductors and their electron interactions.

Adding oxygen to thin films reduces leakage current and enhances performance.

Exploring the interactions between topological insulators and light through second harmonic generation.

Discover how electrons interact with light in semiconductors.

A new method enhances accuracy in material behavior studies.

Discover how silicon carbide is shaping the future of powerful electronics.

Shining THz lasers on tellurium alters its electrical properties dynamically.

Exploring the complex interactions of superconductivity and charge order in a unique material.

A look into the electronic properties of SrIrO and its intriguing pseudogap.

Light creates spin photocurrent in two-dimensional materials, advancing technology.

Exploring the impact of spin waves in synthetic antiferromagnets and lithium niobate.

Discover the unique properties of chromium sulfide hydride and its future uses.

Phase-locked loops enhance synchronization in communication technology.

New insights into superconducting diodes promise energy-efficient electronics.

Altermagnetic materials combine unique properties, with potential applications in valleytronics.

Explore the unique properties of monolayer NbSe₂ and its superconducting potential.

Discover the unique properties of twisted semiconductor bilayers and their potential applications.

Scientists investigate how different methods affect band gap calculations in materials.

Exploring the vibrational properties of triangular nanographenes and their electron interactions.

Discover how silver nanowires manipulate light in exciting ways.

Nanowires hold potential for advanced technology through efficient electricity flow.

Discover how strain enhances the properties of bilayer WSe₂ for future tech.

Discover how tiny magnetic interactions may shape future technologies.

2-D transistors may change the landscape of modern electronics and computing.

Exploring the game-changing potential of graphene nanoribbons in electronics and materials science.

Researchers study electron behavior atop superfluid helium using advanced measurement techniques.

Discover the unique properties of topological materials and their potential impact on future tech.

Revolutionary materials may change the landscape of electronics and quantum computing.

Discover how electrostatic interactions shape materials like barium titanate.

Explore how doped semiconductors transform electrical properties and optical responses.

Explore the fascinating properties of twisted bilayer graphene and its potential applications.

Scientists reveal unique properties of WSe2 using advanced microscopy techniques.

Scientists make strides in creating layered nitride semiconductors for better electronics.

Discover the unique properties and mysteries of kagome metals.