Scientists have discovered that applying vibrational motion in a periodic manner may be the key to preventing dissipations of the desired electron states that would make advanced quantum computing and spintronics possible.
Scientists have discovered that applying vibrational motion in a periodic manner may be the key to preventing dissipations of the desired electron states that would make advanced quantum computing and spintronics possible.
Similar to the way painters mix different hues and tones of colors on their palette, researchers demonstrated a method for continuous mixing of different structural colors at the nanoscale on a single pixel. This novel method for structurally generating and mixing vivid colors additively is based on interleaved rectangular lattices of metallic nanoparticles. This coloring approach offers a large individual control over the chromaticity and luminance of the generated colors.
A novel ultrasound-emitting device brings lithium metal batteries, or LMBs, one step closer to commercial viability. Although the research team focused on LMBs, the device can be used in any battery, regardless of chemistry.
Scientists have developed a smart material with unique properties, which holds promise for express DNA analysis and next-generation drugs against cancer and other serious diseases.
Scientists have discovered an entire class of two-dimensional materials that are the thickness of one or a few atoms. When combined together, these atomically thin crystals are capable of forming structures that emit customisable light in the desired colour.
Scientists have discovered that applying vibrational motion in a periodic manner may be the key to preventing dissipations of the desired electron states that would make advanced quantum computing and spintronics possible.
Ultrathin crack-based sensors operate on a principle similar to a spider's sense organ and display remarkable sensitivity to movement.
A novel ultrasound-emitting device brings lithium metal batteries, or LMBs, one step closer to commercial viability. Although the research team focused on LMBs, the device can be used in any battery, regardless of chemistry.
Scientists have developed a smart material with unique properties, which holds promise for express DNA analysis and next-generation drugs against cancer and other serious diseases.
Researchers dotted metasurfaces with 600-nanometer-high silicon cylinders that alters the path and speed of light as it passes through them.
Scientists have discovered an entire class of two-dimensional materials that are the thickness of one or a few atoms. When combined together, these atomically thin crystals are capable of forming structures that emit customisable light in the desired colour.
Researchers have demonstrated a multifunctional AC and/or DC power supply on soft, moist contact lenses.