Latest Articles for Materials Science

Investigating moiré patterns reveals potential advancements in materials and electronics.

Combining classical and quantum approaches could enhance simulations of complex systems.

A novel SPH approach improves simulation for plates and shells under deformation.

A look into the unique properties of the supersymmetric SYK model and its implications.

Scientists use advanced imaging to study materials at atomic levels.

New insights into MATBG's electronic behavior could lead to advanced electronic technologies.

Research on nanographenes reveals insights into magnetism and electrical conduction.

Exploring the potential and challenges of vibrational polariton states in molecular systems.

New Python library enhances low-energy structure search in materials science.

Research reveals unique properties and phase transitions in SrAl and BaAl materials.

This article discusses the impact of ring-shaped cracks in rotating hollow cylinders.

Study reveals how temperature and protein levels influence aqueous protein solution properties.

Study reveals insights on electron movement in GaN/AlGaN structures for better devices.

Study explores factors affecting hole movement in superlattices for improved device performance.

Study of topological insulators reveals new electronic behaviors influenced by magnetism.

CrTe shows promise for advanced technology with its magnetic and electrical traits.

Research on hydrogen in silsesquioxane cages offers insights for quantum technology.

Study reveals complex phase behaviors in quasicrystals interacting with non-Hermitian effects.

This article examines how skin reacts to stress and its implications for health.

Mn Sn shows promise for advanced electronic applications due to its magnetic properties.

Exploring unique properties of topological modes in complex physical systems.

Exploring the random cluster model in networks and its implications.

Exploring the exciting intersection of heat management and advanced physics.

Exploring the latest developments in piezoelectric energy harvesting technology.

A new method improves speed for creating random equilateral polygons.

Quantum methods combined with classical approaches enhance calculations of Green's functions.

Research reveals key effects in polar metals, highlighting novel properties and potential applications.

Research highlights the potential of Co MnSb/HfIrSb in spintronics applications.

Examining how soft materials stick together for improved medical adhesives.

New insights into the interaction between TMDCs and plasmonic crystals.

Analyzing ionization in plasmas reveals challenges and discrepancies in models and experiments.

Study shows how grain size and texture affect necking in metal rings.

Exploring THz magnon frequency combs in antiferromagnetic materials for future applications.

Exploring the unique characteristics and potential applications of carbon nanotubes.

New frameworks enhance quality and efficiency in metal additive manufacturing.

Study investigates drop impact behaviors and forces using advanced video analysis and AI.

New method generates unseen quantum states through merging classical and quantum techniques.

Explore the significance and challenges of thermal barrier coatings in modern engines.

Research on Majorana zero modes offers insights into future quantum computing.

GeSn offers new possibilities for electronics using light instead of electricity.