Latest Articles for Material Science

A new method improves particle synthesis by managing production uncertainties.

Researchers reveal how currents affect quantum phases in thin electron layers.

Exploring the mechanical properties and applications of hybrid schwarzite materials.

Research on graphene and WSe2 opens doors for spintronics and new technologies.

Combining accuracy and clarity in engineering through machine learning and symbolic regression.

Thin elastic sheets display intriguing properties influenced by temperature and geometry.

New methods address challenges in modeling materials and irregular shapes.

Researchers enhance electron spin coherence with all-optical cooling techniques in quantum dots.

A new method for designing sound filters with wider frequency handling.

Exploring effective methods for modeling dispersion interactions in various systems.

Study reveals how materials affect terahertz emitter performance for various applications.

Discover the intriguing thermal and electrical behaviors of the material EuTiO.

Examining how granular materials change under stress and flow conditions.

Research reveals unique properties of Dirac nodal line semimetals for sound applications.

A look into the unique properties of non-Hermitian topological insulators.

A look into Rayleigh wave scattering and its impact on material analysis.

A look at how electrode structure affects battery efficiency and charging speed.

Exploring the effects of disorder on electron behavior through Anderson localization in materials.

NBT shows promise with unique electronic, magnetic, and optical properties for diverse applications.

Research explores how transverse forces impact particle dynamics and sampling in dense liquids.

This study reveals insights into the magnetocaloric effect and its significance for cooling technologies.

This paper discusses detecting chirality in twisted bilayer graphene through experimental methods.

Examining the behavior and applications of elastic membranes in various fields.

Explore how non-Newtonian fluids behave under stress and their industrial applications.

New magnetism type blends features of antiferromagnets and ferromagnets.

Exploring the process of coagulation and its mathematical and practical implications.

Examining the interplay of Majorana modes and electron interactions in quantum systems.

Research focuses on new cathode materials for enhanced battery performance.

Explore the unique dynamics of hybrid percolation transitions and their implications.

Recent progress in producing high-energy electrons using powerful lasers opens new applications.

Research reveals insights on cavitation bubble behavior near solid surfaces.

New study shows TiN nanoparticles significantly increase light absorption in solar cells.

Learn how droplets interact with moving surfaces based on speed and conditions.

Exploring the behavior and significance of LLNES in various systems.

Researchers aim to better understand strange metals and their unique properties.

This study examines how micrometer-sized particles stick to surfaces in hydrogen plasma.

A new approach to creating smaller, more efficient space-time systems.

Research improves understanding of polaritons for better light and electronic device performance.

Investigating programmable photonics for studying topological systems and light behavior.

Research reveals new ways to control magnetization in advanced materials.