Combining pH nanosensors and super-resolution microscopy illuminates transient signaling between cellular organelles, unlocking new vistas for diagnosing and manipulating inter-organelle crosstalk.
Spin-orbit torque, an important phenomenon for developing ultrafast and low-power spintronic devices, can be enhanced through Berry phase monopole engineering at high temperatures.
A front-end lens, or meta-imager, can potentially replace traditional imaging optics in machine-vision applications, producing images at higher speed and using less power.
Researchers have developed nanoparticles that are able to selectively bind to activated astrocytes and microglia cells that mediate brain inflammation in AD, and found that both AD and aging strongly affect the ability of nanoparticles to cross the BBB and localize to the hippocampus.
Researchers have developed a low-cost and user-friendly fabrication technique, called UV-LED-based microscope projection photolithography (MPP), for rapid high-resolution manufacturing of optical elements within seconds.
Researchers unveil advanced liquid crystal phase modulators using a light-controlled azimuth angle process, enhancing optical systems with low power, flexible bandwidth, and precise alignment for diverse applications.
Scientists succeeded in simultaneously studying the rapid motion of electrons with high spatial accuracy and a temporal resolution in the attosecond range.
