Latest Articles for Materials Science

OF-DFT offers new insights into complex nuclear systems beyond traditional methods.

New materials and machine learning enhance solar cell efficiency and safety.

Research reveals the dynamics between many-body localization and ergodic bubbles.

LK-99 could change the future of superconductivity if proven effective.

Research reveals unique behaviors in mixtures of liquid crystals, expanding their potential applications.

Study reveals impact of cross-phase modulation on 2D spectroscopy outcomes.

Researchers aim to achieve superconductivity at high temperatures through Mott localization.

Lattice DFT enhances understanding of complex electronic systems and interactions.

Examining how magnetization influences superconductivity in unique materials.

New techniques improve energy transfer study in antiferromagnetic materials.

Research leverages machine learning to predict superconductors' critical temperatures efficiently.

Exploring the unique characteristics and applications of Exceptional Bound states in quantum systems.

Rhombohedral trilayer graphene exhibits unique metallic ferromagnetism influenced by orbital moments.

New microwave amplifiers enable improved signal processing for quantum technologies at elevated temperatures.

Study of circular motion in small particles reveals important scientific insights.

This article examines how missing atoms influence magnetism in Ising chains.

Exploring how unique materials respond to light and their superconducting properties.

A look at efficient disk packing methods and their impact on material strength.

Exploring how disorder affects graphene's electronic properties and quasiparticle dynamics.

This study examines the unique properties and behaviors of metallic and tellurite glasses.

Research on electric bubbles reveals new applications in computing and energy technologies.

Scientists distinguish helium and electron recoils in liquid xenon for dark matter detection.

Exploring spin currents in NFL metals using ferromagnetic insulators.

Explore the effects of disorder and temperature on bilayer graphene's properties.

Exploring the electronic properties and interactions in nickel dichalcogenides.

Research reveals unique properties in helical twisted trilayer graphene with potential for advanced electronics.

Halide perovskites offer potential for solar energy and light-emitting devices.

Examining unique properties of the spin Hall effect in Dirac ferromagnets.

Examining unique properties and potential applications of quartic dispersion materials.

Machine learning improves the accuracy of predicting crystal structures for new material development.

Researchers achieve effective shuttling of spin qubits, enhancing quantum computing potential.

Discover how excitons influence the future of electronic and optical devices.

Researchers investigate new hydrides for high-temperature superconductivity.

Researchers observe unique quantum states in bilayer MoS₂, advancing electronic technology.

Examining how charged macroions interact in different solutions.

New cobalt oxide shows promise as an efficient transparent conducting material.

New insights into spins and magnetism in ferromagnetic materials enhance material design.

New techniques improve the simulation of complex quantum systems, enhancing research capabilities.

Scientists are studying strange metals to reveal their unique electron behaviors and implications for technology.

Researchers develop a method to improve photon pair generation in nonlinear optics.