Latest Articles for Materials Science

Researchers enhance qubit performance by studying noise and coherence in germanium hole systems.

Exploring the impact of quantum currents on charge transport and symmetry in physical systems.

Dense suspensions impact various industries and everyday life.

Exploring superconductors and their impact on technology through advanced simulation techniques.

Research on unique materials that manipulate electromagnetic waves opens new technology avenues.

Research examines how defects affect superconducting properties of Ba K Fe As.

Discover the fascinating characteristics of twisted trilayer graphene and its potential uses.

A new method enhances predictions of corrosion damage in complex concrete structures.

Learn about skyrmions and antiskyrmions in monoaxial chiral magnets.

Researchers use machine learning to better predict superconducting properties and explore material design.

Investigating copper ions in zeolites to improve catalytic processes for harmful gas reduction.

Research on domain walls and twirls in two-dimensional materials enhances electronic device performance.

Research reveals unexpected behaviors of fluids in tiny spaces, challenging traditional theories.

LaPtSi shows unusual superconducting behavior, challenging conventional understanding of materials.

New algorithms reveal improved methods for efficiently packing spheres in high-dimensional spaces.

A special transistor harnesses temperature differences to generate electricity efficiently.

An overview of string-net models and their implications in theoretical physics.

Examining factors behind electrical insulation failures in particle accelerators.

Using entangled photons improves measurements in ultrafast spectroscopy.

Study reveals interaction of magnetic forces in iron films on InAs.

Exploring how temperature impacts the mechanical properties of carbon nanotubes.

A look into how Berry curvature affects electron dynamics in two-dimensional materials.

Exploring the significance and applications of minimal surfaces across various fields.

Learn how amphiphilic nanocubes self-assemble and their potential applications.

This article highlights the potential of vertical double quantum dots in future quantum technologies.

Exploring electric currents generated by magnetic fields near boundaries.

An exploration of Skyrme crystals and their role in nuclear matter.

A simpler approach to measure optical properties of tiny van der Waals materials.

Study of charge multipoles reveals insights into material behaviors and properties.

Research sheds light on electric current behavior in silicon-doped InAs nanowires.

Examining the properties and performance of halide perovskites for solar energy.

Researchers observe heat and exciton interactions in few-layer MoS2 using advanced techniques.

VSiXN monolayers exhibit unique properties for advanced electronic applications.

A look into the unique properties of ultranodal states in FeSe.

Small changes in nanoporous materials affect water behavior for energy storage and chromatography.

Examining the role of Weyl semimetals in advancing spintronics technology.

Investigating how light affects liquid crystal polymers for soft robotics applications.

Researchers unveil novel electronic properties of a 2D kagome MOF.

Scientists study unique properties of 2D materials for advanced applications.

A method to estimate how harmful substances penetrate rubber materials.