Princeton team has developed a 3-dimensional device that merges living brain cells with advanced electronics to perform ...

Princeton researchers have combined brain cells and advanced electronics into a single 3D device that can be programmed to ...

Most fat stores energy; the body's brown fat does the opposite. Unlike the white fat that accumulates just under our skin, ...

Samsung Galaxy S26 Ultra was launched in India and other global markets earlier this year, in January. Ahead of the launch of ...

In conventional pathology and physiology research, two-dimensional (2D) analysis—observing thinly sliced tissue sections—has been mainstream, making it difficult to comprehensively understand the ...

The origin of many diseases begins at the cellular level and involves multiple molecular interactions. However, previous methods have struggled to accurately observe changes in individual cells.

Most cells in the human body exist in complex three-dimensional environments, yet they are still commonly studied on flat plastic dishes. These two-dimensional cultures distort cell behavior, limiting ...

Growing cells in three dimensions is critical for studying how tissues behave in the body, yet most laboratory platforms remain either too simple or too complex to use widely. Researchers now present ...

Researchers developed a microfluidic chip with 3D-printed microstructures that moves droplets precisely, captures cells efficiently, and quickly forms cell spheroids for improved lab-grown tissue ...

Custom polymer structures can now be 3D printed inside living cells using laser-based fabrication, opening paths to intracellular sensors, cell tracking tags, and embedded microlasers. (Nanowerk ...

The MarketWatch News Department was not involved in the creation of this content. MONMOUTH JUNCTION, N.J., Jan. 14, 2026 /PRNewswire/ -- TheWell Bioscience is proud to announce the commercial launch ...