Latest Articles for Materials Science

Learn about skyrmions and their potential in future technologies.

Research reveals how specific ions can improve perovskite solar panel efficiency.

Study of phase interactions affecting droplet behavior in materials.

This article discusses models to simplify the study of heavy fermion materials.

Exploring how quadrupoles can change material properties through unique arrangements.

This study reveals unique thermal behavior of ZrW2O8 and its phonon modes.

New developments improve electronic properties for quantum technology applications.

Research reveals unique spin behavior in bilayer nickelate superconductors.

Examining how mechanical stress affects ionic fluids in batteries and other devices.

Research sheds light on stable wave patterns in nonlocal coupled systems.

Researchers create efficient vortex beams using new materials.

Spin crossover materials offer unique behaviors with applications in technology.

Research on vanadium dioxide's unique phase transitions at the nanoscale reveals potential technological applications.

Twisted bilayer graphene reveals unique phases and properties through specific twists and chemical doping.

This article explores the interplay between superconductors and antiferromagnets through N eel triplet correlations.

Study reveals the importance of longer-range interactions in graphene's unique phases.

A novel technique improves the study of NV centers for quantum applications.

This article discusses methods to assess order in many-particle systems through local number variance metrics.

A look at how the Kinetic Ising model studies materials in different conditions.

A machine learning method improves synchrotron magnetic field modeling.

Research reveals how surface changes in CaP affect magnetic properties.

Research reveals novel polariton behavior in perovskite double microcavities with potential applications.

A look into the dynamics and behavior of soft materials transitioning to a glassy state.

A deep look into soft magnetic composite materials and their modeling.

Active materials can change behavior through communication, mimicking life-like responses.

This article examines how water interacts with magnetite at a molecular level.

Research integrates valley physics with quantum systems for better electronics.

Researchers develop a unique liquid with electric and magnetic properties for various applications.

A look at how polymers behave when placed in different solvents using mathematical models.

This study reveals how substrate friction impacts fluid behavior and particle movement.

A look at recent advancements in topological superconductivity and Majorana bound states.

New 4H-SiC LGADs enhance particle detection performance in challenging conditions.

This study introduces a new model for smart beams using nonlocal interactions and piezoelectric materials.

This study examines how the polarizability of anions influences superconducting behavior.

Examining how random electric fields impact particle movement in quantum systems.

Researchers offer a new way to measure topological entanglement efficiently.

Research reveals surprising effects of silver particles in gold structures on electrical resistance.

Learn how scientists are improving the stability of DNA structures for various applications.

Research on GaP crystals may lead to efficient quantum communication systems.

Research reveals unique superconducting properties of van der Waals materials.