Latest Articles for Nanotechnology

Exploring the unique properties and applications of CuInP S in technology.

Examining the distinct properties and structures of liquid bismuth for technological advancements.

Research on CoSi reveals unusual quantum oscillations and quasiparticle behaviors.

Research reveals atomic-level details of promising red phosphor SrLiAlN:Eu for improved lighting.

Research delves into light-induced dynamics in transition-metal oxides.

Exploring the unique properties of antiferromagnets and their potential applications.

Researchers merge kirigami art with graphene to explore new materials.

A method for assembling 2D materials with pristine surfaces.

Research shows how two materials can improve spin manipulation for electronics.

Research reveals dynamics of photon emission from quantum emitters in waveguides.

Unlocking advancements in electronics through the unique behavior of electron spins.

Research reveals new potential in quantum optics using silicon-vacancy centers in nanodiamonds.

Investigating charge ordering and structural effects on superconductivity in nickelates.

Study of electronic excitations and their impacts in materials with broken inversion symmetry.

This article discusses nuclear spin polarization and its implications for quantum computing.

Exploring the potential of graphene multilayers for superconductivity and its unique properties.

Research reveals unique electron behaviors in delta-doped LaSrIrO materials.

Research focuses on magnetic behaviors of cobalt and iridium in double perovskites.

Research reveals exciting behaviors of exciton-polarons in transition-metal dichalcogenides through advanced techniques.

New findings on ruthenium ilmenites show unique electrical properties linked to structure.

Research reveals unique superconductivity characteristics in ultrathin FeSe films layered on SrTiO.

Study of dumbbell particles reveals changing patterns with pressure and temperature.

Understanding the potential and challenges of spin-torque nano oscillators.

Research reveals insights into single-molecule magnets and their application in quantum technologies.

Exploring the impact of the intrinsic nonlinear Hall effect in 2D antiferromagnetic spintronics.

Analyzing how different factors affect neural networks in HRTEM image analysis.

Study on tungsten layers for advanced technologies like spintronics.

New insights into thermoelectric materials could boost efficiency in energy applications.

Researchers uncover superconductivity at higher temperatures in niobium with tiny holes.

Exploring the potential of wurtzite and zincblende structures in advanced electronics.

Investigating the interactions between graphene edge states and superconductors reveals unique phenomena.

Researchers use plant extracts to create valuable nanoparticles for various applications.

Exploring the creation and significance of NiBi nanorods and nanowires in material science.

Molecular communication opens new ways to transmit information using tiny molecules.

Research highlights the promise of SnV centers for quantum computing.

New machine learning approach enhances analysis of metal nanocluster structures.

Researchers explore new interactions between dark and bright modes in photonic structures.

Research highlights effective growth of (In,Ga)N shells for light-emitting applications.

Research focuses on optimizing aluminum oxide layers for better superconducting junctions.

New methods improve the accuracy of nanodevices in medical applications.