Researchers bridge sequence-defined macromolecule synthesis with 3D microprinting, precisely controlling printability and material properties through molecular structure engineering to pioneer a new generation of specialized printed materials.
Scientists have developed an effective, single-dose, inhalable nano-micro composite vaccine for respiratory viruses, showing promise in animal models and potential for combating epidemic diseases.
Diamond and lithium niobate are often touted as high-performance quantum materials. Now, scientists have combined the two materials as a single quantum device, with exciting results.
Researchers formulated an adhesive, shear-thinning bioink that maintains structural integrity when 3D printed underwater. This technology significantly expands bioprinting capabilities for surgical tissue grafts.
In a significant advancement in optical technology, researchers have developed a new method for creating transparent magnetic materials using laser heating. This breakthrough presents a novel approach to integrating magneto-optical materials with optical devices, a long-standing challenge in the field.
Exploring the forefront of sustainable 2D materials for semiconductor technology, this research showcases the integration of environmental considerations into the future of electronic device innovation.
