Latest Articles for Materials Science

This study examines how particles combine and evolve in a defined spatial area.

Research improves spin coherence times in diamond, enhancing quantum technology applications.

Research on silicon anodes and ionic liquids aims to improve battery performance.

A new model speeds up the search for superconductors using machine learning.

Investigating how current-induced forces change energy flow in small systems.

This article explores Bloch oscillations, quantum geometry, and electron response to electric fields.

Recent studies reveal surprising transitions in cuprate materials from superconductors to metals.

This study examines how impurities move and interact in complex environments.

Research improves measurement techniques in strong field ionization for attosecond science.

Research reveals low-energy transitions in CeAgGe linked to crystal electric fields.

Examining how light affects electrical properties of vanadium oxides and their applications.

Research on FAPbI3 nanocubes reveals new insights into excitons and material properties.

An overview of superconducting spin valves and their implications for electronics.

This article examines how viscoelastic tapes detach from surfaces and its applications.

New methods improve predictions for chalcopyrite semiconductor properties.

Exploring how charged polymers enhance DNA sequencing technologies.

Research sheds light on tunneling mechanics from excited particle states.

Dielectric elastomers convert electrical energy into mechanical motion, offering diverse applications.

Study reveals how droplets behave on viscoelastic films in various conditions.

A novel method for achieving topological superconductivity using magnetic barriers in Josephson junctions.

Explore CoSi films and their key properties in electronics and superconducting applications.

MeshAC creates adaptive 3D meshes for accurate material simulations at multiple scales.

A look into unusual electronic behaviors near density wave orders.

Researchers explore how structured light interacts with spin for innovative applications.

Study reveals how cavities influence chemical reactions through temperature and light.

Exploring the unique superconducting properties of twisted bilayer graphene.

New light source enhances time-resolved experiments for studying quantum materials.

Exploring the electrocaloric effect for sustainable cooling solutions.

OPTIMADE connects users to essential materials data through a standardized API.

Examining how DMI influences magnetic properties in iron germanium nanoparticles.

Examining the relationship between superconductivity and topological phases in materials.

Learn how graphic statics and cosheaves help design strong structures.

Research reveals complex interactions in the coalescence of liquid drops.

Recent research challenges established views on magnetoresistance in chiral materials.

A new method improves uncertainty estimation in atomistic simulations with deep learning.

Examining how diffusion influenced by stress affects material properties and applications.

A deep look into the mysteries of glass behavior during cooling.

Research reveals the impact of chromium doping on silicene's properties for advanced technology.

This research reveals how vortices cluster in polariton quantum fluids under various conditions.

Explore the function and significance of pulsed electron guns in research.