Latest Articles for Strain

AI tools improve predictions on protein stability related to mutations.

Research on LaCrO and LaMnO layers could improve electronic devices.

A new approach using graph neural networks for efficient multiscale material simulations.

Speckle BCDI enhances the study of crystals with faster and clearer imaging techniques.

This study highlights the metabolic traits and interactions of Klebsiella pneumoniae strains.

Research reveals how palladium nanocrystals adapt to strain during phase transformations.

A look into how cracks develop and interact in various materials.

Learn the basics of solid and fluid mechanics.

Rippled graphene holds potential for advanced electronic applications and energy efficiency.

This study reveals how hydrogels fail and their unique deformation properties.

A look into how thin films behave under various forces.

G centers in silicon show promise for advancements in quantum technology.

Research reveals how strain alters TaNiS semiconductor properties.

Exploring the unique properties of graphene wormholes and their effects on electron dynamics.

Exploring how strain and lattice relaxation affect twisted bilayer graphene's electronic behavior.

A new framework addresses complex nonlinear responses in materials.

New hydrogenated materials show superconductivity above 80 K, promising future applications.

Research highlights how cell divisions affect surrounding tissue forces and structure.

This study investigates how strain affects the electronic properties of monolayer MoS.

Research uncovers the alignment patterns of bacteria in various growth conditions.

Exploring how isotropic tensor fields reveal properties of amorphous solids.

Research explores how strain affects magnetic monopoles in classical spin ice.

Research uncovers how strain and substrate influence second harmonic generation in MoSe monolayers.

Examining the potential of the Kekulé Valence Bond Solid state in graphene.

Research on charged vacancies in ferroelectrics opens new avenues for technology advancement.

Examining the intricate world of infinite-layer nickelates and their superconducting potential.

This article examines how strain influences the electronic behavior of ZrSiS.

Learn how CANNs improve the understanding of material behavior under stress.

Learn about Timoshenko beam theory and its importance in engineering.

Research shows how mechanical strain alters graphene's electronic characteristics.

Exploring how strain influences spin qubit performance in quantum computing.

Examining the challenges and methods in detecting hypothetical gravitons.

This study shows how grounded running can lower the risk of stress fractures.

A new model improves efficiency and accuracy in metal rolling operations.

Researchers are using sound waves to control electric properties in ferroelectrics.

Ralstonia bacteria threaten plants worldwide, affecting agriculture and ecosystems.

Exploring how strain effects in SWCNTs can transform electronic devices.

Exploring how perovskite superlattices behave under different conditions.

New methods improve material behavior predictions using advanced neural networks.

Analyzing the behavior of concrete beams under extreme fire conditions.