New laser technique could enable data storage on printable magnetic devices
Using optical vortex enhances printing technology, shows promise in creating well-formed single ferrite crystals.
Jul 26th, 2024
Read moreUsing optical vortex enhances printing technology, shows promise in creating well-formed single ferrite crystals.
Jul 26th, 2024
Read moreResearchers developed somersaulting spin qubits for universal quantum logic. This achievement may enable efficient control of large semiconductor qubit arrays.
Jul 26th, 2024
Read moreThe chiral spin filter, made from hybrid organic-inorganic halide perovskite material, gave conventional LEDs the power to inject electrons' spin orientation at room temperature without ferromagnets or a magnetic field, overcoming a major barrier to commercial spintronics.
Jul 26th, 2024
Read moreResearchers develop a robust quantum highway with switch to control electron movement.
Jul 26th, 2024
Read moreDistinctive processes could provide hints on how to use next-generation materials.
Jul 26th, 2024
Read moreResearchers developed a novel tunable ultrasonic liquid crystal light diffuser that allows changing the diffusion direction.
Jul 26th, 2024
Read moreResearchers have developed cutting-edge nanoscale optical imaging techniques to provide unprecedented insights into the ultrafast carrier dynamics in advanced materials.
Jul 25th, 2024
Read moreResearchers developed a quantum sensor to detect minute magnetic fields at the atomic scale, achieving an MRI-like tool for quantum materials.
Jul 25th, 2024
Read moreInspired by cicada wings, researchers study the insects' antimicrobial properties to develop new antibacterial surfaces.
Jul 25th, 2024
Read morePharmaceuticals, catalysts, and inks depend on nanoparticle size. A new laser-based technique for inline measurement during grinding could soon enable accurate monitoring.
Jul 24th, 2024
Read moreA novel polyaniline-cobalt oxide catalyst efficiently produces acetate from carbon dioxide electroreduction, offering a sustainable solution for industrial applications.
Jul 24th, 2024
Read moreScientists investigated how electrons in two-dimensional crystals can be collectively excited and controlled. The study is pioneering for understanding the electronic properties of crystal structures and specifically influencing them.
Jul 24th, 2024
Read moreA tunable metasurface developed by Caltech engineers can control optical light in space and time, offering a path toward new ways of wirelessly and securely transmitting large amounts of data both on Earth and in space.
Jul 24th, 2024
Read moreNanoparticles could potentially help address agricultural and environmental sustainability issues on a global scale.
Jul 23rd, 2024
Read moreScientists applied a new X-ray-based reconstruction technique to observe, for the first time, topological defects in a nanoscale self-assembly-based cubic network structure of a polymer-metal composite material imaged over a relatively large sample volume.
Jul 23rd, 2024
Read moreA supercrystal formation previously unobserved in a metal-insulating material was discovered by a research team, potentially unlocking new ways to engineer materials and devices with tunable electronic properties.
Jul 23rd, 2024
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