A novel sensor device leveraging hydrogel and metallic structures for passive, wireless environmental monitoring.

A groundbreaking algorithm that significantly reduces communication time and message size in distributed machine learning, ensuring fast and reliable model convergence.

Innovative cell lines enabling precise genetic modifications to advance research in gene function, disease modeling, and potential therapeutic interventions.

This technology represents a significant leap in radar systems, offering millimeter-scale range resolution and high angular resolution.

Researchers at the University of California, Davis have developed a technology that introduces a highly adaptable, lightweight robotic end effector designed for complex manipulation tasks in automation.

A revolutionary approach to mapping and analyzing DNA, RNA, and proteins within cells and tissues for advanced biological research and clinical diagnostics.

A novel motorized tool designed to precisely deliver retinal tissue during transplantation, enhancing outcomes for patients with retinal degeneration.

This technology offers a revolutionary approach to point-of-care diagnosis and large-scale health surveillance by enabling portable, high-accuracy detection of proteins, bioparticles, and cells.