Latest Articles for Materials Science

LoRePIE improves image quality in electron imaging without damaging sensitive samples.

A look at how unique light interactions in optical fibers can improve technology.

Scientists explore how silanization affects glass' interaction with water over time.

Discover how vortex and corner modes interact in topological superconductors.

A look at altermagnets and their significance in spin currents and future tech.

Ferrimagnets combine opposing magnetic forces, influencing modern technology.

Van der Waals molecules play a key role in various scientific fields.

Explore the unique superconducting properties of beta-bismuth palladium.

Discover the fascinating behavior of droplets on surfaces and their measurement challenges.

Machine learning improves the speed and accuracy of phase diagram construction for materials.

Quantum computing paired with machine learning aims to improve material simulations.

Scientists investigate nuclear isomers in solid materials for precise timekeeping and sensing devices.

A breakthrough in acousto-optic modulators opens new possibilities for light and sound integration.

Researchers explore synchronized movements of gold nanoparticles in an optothermal trap.

Discover how altermagnets generate spin currents for advanced electronic applications.

Nanodiamonds show promise as reliable sources of single photons for advanced technology.

Learn how crystals withstand pressure and remain intact.

A look into how materials behave under various forces with free boundaries.

Tiny silicon disks can control light for advanced sensing applications.

Phonons play a crucial role in material behavior and technology advancements.

Study reveals how pressure alters Cd As electronic properties.

Tungsten carbide shows promise as an effective solar energy absorber.

Explore the fascinating changes in magnetism driven by electrons and external forces.

Discover the unusual properties and applications of quasicrystals in technology.

Discover how microstructures impact engineering through geometric modeling.

Flat bands reveal unique properties in materials, influencing electron interactions.

New findings reveal how magnetic fields alter graphene’s states through the Dirac sea.

A look into the design and challenges of superconducting circuits.

Exploring the fascinating properties and behaviors of orthonickelates in materials science.

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

A study on the effects of temperature and pressure on Ti AlC properties.

A look into the light-emitting capabilities of transition-metal dichalcogenides.

Twistronics explores the potential of twisted layers in modern technology.

Researchers study how temperature affects silver chalcohalides for energy applications.

Timepix4 revolutionizes electron microscopy by capturing detailed images of electrons.

A powerful tool for analyzing crystal symmetry and properties efficiently.

A new method enhances modeling of material phase changes.

Scrutiny on H3S challenges previous claims about its magnetic properties.

A new model improves predictions for metal 3D printing melt pool behavior.

A look at how the structure of amorphous graphene affects its electrical properties.