Latest Articles for Materials Science

Magnonics research reveals new potential in low-power technology through magnons and antimagnons.

Exploring new frontiers in computing using exciton-polaritons for faster processing.

Research reveals unexpected sound absorption patterns in magnetic materials.

Discover how nanocrystals are changing technology through deep learning.

This article discusses innovative techniques to study sensitive materials without causing damage.

Twisted bilayer graphene reveals unique properties, opening doors to quantum physics.

This article highlights the latest innovations in quantum photon generation using lithium niobate.

Nitrogen-vacancy centers in diamonds could revolutionize quantum applications.

Explore how magneto-ionic devices mimic brain functions, learning and remembering efficiently.

New findings challenge RuO2's potential as an altermagnet in electronics.

Spin qubits could change the future of quantum technology and its applications.

Researchers use machine learning to analyze superconductors and tackle bilayer splitting.

Explore the strange behaviors of fast particles and super-periodic potentials.

Droplet impacts affect daily processes in surprising ways.

Tm:YAG crystals enhance quantum information storage efficiency and capabilities.

Field-resilient supercurrent diodes promise exciting advancements in electronics and computing.

Researchers reveal new insights into exciton-polaritons and their potential for light manipulation.

Discover how liquids interact with surfaces and why it matters.

Researchers are advancing materials for better control of light emissions in technology.

Discover how monolayer 1T-MoS2 could transform electronics with unique properties.

Discover the unique behaviors and applications of non-Hermitian systems in physics.

Discover how nickel and gold improve semiconductor connections!

Discover the unique magnetic properties of Cu(OH)Br and its significance.

Discover what happens when glass breaks, focusing on amorphous silica.

Explore how water interacts with carbon nanotubes and its implications.

Using AI to tackle challenges in designing anisotropic materials.

Discovering unique behaviors in quasicrystals and non-Hermitian systems through particle interactions.

Discover how domain walls are shaping the future of quantum technology.

Discover the unique properties of porous graphene-based kagome structures and their potential impact.

New model enhances anomaly detection in materials science.

Uncovering the secrets of Berry curvature in graphene materials.

Discover the unique properties and future applications of niobium chloride.

Study reveals unique resistance changes in magnetically influenced semiconductor.

Discover the intriguing world of Mott insulators and their unique charge excitations.

Discover the fascinating behaviors and applications of granular materials in our daily lives.

New model integrates molecular and crystalline data for better simulations.

Discover the unique properties of antiferromagnets and their potential applications.

EuAlSi and its solid solution reveal fascinating magnetic and superconducting properties.

Explore how microgravity changes our view of colloid-polymer mixtures.

Discover how disordered carbon structures impact heat transfer and technology.