Researchers have developed a novel approach to effectively mitigate electromigration, a phenomenon that has long posed challenges for the semiconductor and integrated circuits industry.
With a new approach, that brings us closer to the commercial application of 3D color holograms, scientists have developed the concept of a virtual 3D color object consisting of colorful focal spots at discrete heights in the out-of-plane dimension above the surface of a print - something they dubbed 'optical fireworks'. Unlike previous 3D color holograms, this color-filtering microlens-based displays realize multicolor and multifocal simultaneously in the form of bright colorful focal ...
Modeling this phenomenon with computer simulations can shed light on questions about how cancer cells invade healthy tissue or how leaves and flowers grow. But the behavior of cell aggregates is extremely complex, and fully capturing their structure and dynamics has proved tricky.
Self-propelling microparticles enhance the dissolution of drugs in the stomach, achieving better bioavailability without the side effects of high dosing.
A new nanometer-scale proximity labeling system can target histidine residues quicker than conventional methods thanks to the inorganic chemical singlet oxygen. The discovery generates a new chemical tool in protein chemical modification.
Researchers have designed a new class of materials that are both sensing mediums and nanogenerators, and are poised to revolutionize the multifunctional material technology big and small.
