Twisted 2D materials hold promise for future technology advancements.
― 5 min read
Cutting edge science explained simply
Twisted 2D materials hold promise for future technology advancements.
― 5 min read
Latest Articles
Using GNNs to predict optical properties of materials improves device design.
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New findings on hematite enhance spintronics efficiency through spin-orbit torque.
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Research reveals new states in SrCoO using strain techniques.
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Research identifies new organic materials for improving perovskite solar cell performance.
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A simplified approach to identify crystal structures using particle coordinates.
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RE2O2CO3 compounds reveal unique magnetic behaviors due to their crystal structures.
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Study reveals how LiVO changes structure and magnetic properties with temperature.
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Researchers improve HgTe nanowires for future electronics and quantum technologies.
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Examining ferroaxial materials and their electric toroidal dipole properties for future applications.
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Research highlights the promise of lead halide perovskites for efficient solar cells.
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New insights on how electrical current affects MRAM performance.
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SciQu speeds up material property predictions using machine learning and automated data extraction.
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A new machine learning method speeds up phonon calculations for material properties.
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This study reveals how symmetry and entropy affect particle behavior in disordered crystals.
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Investigating the unique magnetic properties of KBaCr(PO4)2 reveals complex interactions.
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IrTe2's phase transitions reveal insights into its electronic behavior and potential applications.
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Research on bilayer ReRAM could reshape energy-efficient computing.
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Exploring the unique features of NbOCl monolayer in materials science.
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Chiral tellurium showcases fascinating electrical behavior influenced by its structure and magnetic fields.
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New method improves efficiency in electron simulations using Fourier neural operators.
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Exploring how spin-orbit coupling influences electron movement and material properties.
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New methods enhance measurement accuracy of van der Waals superconductors.
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Researchers improve superconductivity in iron selenide through innovative interfaces.
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Study reveals unique magnetic properties of FeP SiO under varying conditions.
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Explore how microstructure influences the performance of hyperelastic materials.
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Research reveals ultrasonic processing can enhance metal quality in additive manufacturing.
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Research aims to improve electrical steel performance and reduce brittleness.
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New methods improve efficiency in studying periodic systems for better material insights.
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New neutron scattering techniques enhance skyrmion studies, improving spintronic device design.
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Research reveals how smectic films respond to deformation, impacting future technology applications.
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Research focuses on enhancing NCM materials in lithium-ion batteries through advanced doping techniques.
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Bilayer borophene shows promise for advanced electronic and quantum applications.
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New methods enhance uncertainty estimates in GNNs for modeling material energies.
― 8 min read
Research on charged vacancies in ferroelectrics opens new avenues for technology advancement.
― 4 min read
How grain boundaries affect the behavior of metals over time.
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Exploring the effects of disorder on vortex matter in superconductors.
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Co Sn S exhibits unusual magnetic behavior and memory effects.
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Hexagonal boron nitride is vital for the future of quantum technologies.
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Study reveals interactions of MoSe and CrGeTe under light and magnetic fields.
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Research reveals how interfaces affect superconductivity in materials like FeSe and NdFeO.
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