Latest Articles for Material Science

New models improve understanding of how solar wind affects rocky surfaces.

A look into how ultrastable glasses transition to a liquid state.

Study reveals how oligothiophene length affects electronic properties using XAS.

A look into the complexities of electric polarization in Chern insulators.

New detectors promise insights into rare particle events with improved sensitivity.

Investigating unique electronic behaviors in topological semimetals through atomic arrangements.

A new framework improves rendering of translucent objects by estimating complex parameters.

Researchers study fractional Schrödinger equations to better understand complex quantum systems.

Research reveals how light affects chemical reactions in unique environments.

Research on CaF molecules reveals insights into ultracold chemistry and reactions.

Skyrmions in liquid crystals could lead to new technologies in electronics and display systems.

Exploring the unique electronic behavior of four-layer graphene on hexagonal boron nitride.

Magnetic skyrmions show promise for advanced data storage and processing technologies.

NbSeTe shows promise in superconductivity and electronic properties for future technologies.

Exploring the density of states in materials and its mathematical framework.

Examining how gradient types influence the performance of graded metamaterials.

New techniques enhance light directionality using valley photonic crystals and quantum dots.

Researchers examine skyrmions in ferrimagnetic materials for innovative data storage solutions.

A look into how light and molecules behave in confined spaces.

A study of heat equations with changing thermal properties and their implications.

This article investigates the behavior of excitons in layered 2D materials.

Examining the dangers of liquid metal embrittlement in automotive materials.

Investigating how strain influences electronic properties and the AHE in FGT.

Evaluating chlorine vacancies in SiC for future quantum applications.

A deeper look into quantum oscillations and their implications for modern materials.

How magnetic monopoles interact with topological insulators and gain electric charge.

New methods improve measurement of fluorescent markers, enhancing biological insights.

New method improves understanding of complex electron interactions in materials.

Researchers uncover strong superconducting properties in layered materials under magnetic fields.

A look at how lasers influence electron behavior in materials.

Exploring unique magnetic configurations in advanced materials.

New insights on spontaneous symmetry breaking in low-dimensional systems driven by external forces.

Research on La Sr NiO sheds light on superconductivity mechanisms.

Examining how different shapes influence their packing behaviors in two dimensions.

Researchers investigate how quantum liquid filaments turn into droplets under various conditions.

This article explores the vibrational characteristics of amorphous alumina and its applications.

Study assesses methods to enhance silicon chips for long-term medical use.

New techniques promise accurate predictions of electronic properties in solid materials.

Research reveals how spin-Peierls transitions alter magnetic properties in organic compounds.

Examining the role of memristors in neuromorphic computing and their potential applications.