Latest Articles for Electronics

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.

Examining how feedback magnetic fields change magnetization dynamics for advanced technologies.

SubLock improves IC security against attacks while keeping costs low.

Research shows how twisting layers impacts electronic properties in TMDs.

This study investigates how strain affects the electronic properties of monolayer MoS.

Research explores the interplay of graphene and magnetic materials for innovative applications.

This study looks at spin-orbit coupling in layered perovskites and its effects.

New research highlights improved methods for shuttling electrons in quantum computing.

Research explores the unique properties and charge ordering in 4Hb-TaS materials.

Study reveals how holes in WSe₂ can enhance quantum devices.

Exploring the connection between geometry and spin in electronic materials.

Research into Chern bands reveals complex behaviors influenced by electron interactions.

New deep learning model enhances understanding of PZO's thermal properties and phase transitions.

A fresh approach to model memristors for advanced computing applications.

Explore the types and applications of magnetism and ferrites in modern technology.

Silicon qubits show promise for faster quantum state preparation in computing.

Exploring how twisting and electric fields affect t2BN's properties.

Learn about 2D magnets and their potential in technology.

Research reveals new behaviors of bismuth that could transform electronics.

A new tool boosts the search for materials with flat electronic bands.

Examining unique electron behaviors in topological semi-metals through composite nodal lines.

Examining how chirality influences electron spin and its implications.

Research on twisted trilayer graphene reveals unique superconducting behaviors.

Research highlights the impact of oxygen vacancies on memristive device performance.

Exploring the behavior of single-electron pumps influenced by magnetic fields.

Researchers manipulate magnetization in GaMnN using electric fields for advanced electronics.