Latest Articles for Materials Science

Learn how advanced database systems are transforming scientific research.

Discover how Rhodium substitutions affect superconductivity in SrNiP materials.

Discover how strain affects the unique properties of multi-Weyl semimetals.

Discover how graphenized nematic aerogels could reshape technology with their unique properties.

Discover the unique properties and potential of altermagnets in modern technology.

Discover the unique properties and applications of diamondoids in science.

Discover how combining different materials is shaping the electronics of tomorrow.

Discover the exciting world of spinor polaritons and their impact on physics.

Discover the role of altermagnetic insulators in advancing spintronics technology.

Research reveals fascinating states in twisted bilayer graphene, transforming our grasp of quantum materials.

Discover how MoTe/WSe heterobilayers showcase unique electronic behaviors and transitions.

New insights into quantum criticality through Rotational Grüneisen Ratio in anisotropic materials.

Discover how light affects thorium isomers and its implications for advanced timekeeping.

Discover the intriguing world of random media and their types.

Discover how graphene and hBN interact to advance electronics.

Discover the latest advancements in thin film technology and numerical methods.

Discover the science behind ultra-high temperature ceramics and their applications.

Discover how silicon nanoparticles improve medical imaging with hyperpolarization.

CHIPS-FF is changing how researchers evaluate material behaviors for semiconductors.

Unraveling the exciting world of pseudospin-1 fermions and their potential in technology.

Discover how integrated ring resonators are changing photonics technology.

Explore how MADWAVE3 simulates molecular behaviors and reactions in quantum physics.

Discover the potential of organic radicals in advanced technologies and OLED applications.

Delving into the complex behaviors of quantum matter and their implications.

A new method improves accuracy in surface diffusion modeling for material design.

Research highlights how strain enhances trion binding energy in monolayer WS2.

Research reveals how defects in quantum wells affect electronic properties.

Discover how Weyl semimetals improve heat management in technology.

Discover the intriguing behavior of sheared cubes and their unique arrangements.

Discover the unique properties of CrTe compounds and their impact on spintronics.

Explore how electronic flying qubits and Levitons can reshape quantum computing.

Discover how negative-index metamaterials can change the way we see light.

Discover how metamaterials control waves for improved comfort and performance.

Graphene shows promise in spintronics but faces hurdles with spin lifetimes.

Discover the unique magnetic properties of UPdBi and its potential future applications.

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.