Human cells are extremely small and tightly packed – at about 20 micrometers across, ...

Scientists have crossed a startling new frontier in bioengineering: they can now fabricate intricate three-dimensional ...

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.

Researchers have developed a way to 3D print custom micrometer-sized structures directly into the interior of living cells.

Researchers at the Icahn School of Medicine at Mount Sinai have characterized how cellular senescence—a biological process in ...

Scientists from Oxford's Radcliffe Department of Medicine have achieved the most detailed view yet of how DNA folds and functions inside living cells, revealing the physical structures that control ...

AFM is a scanning probe microscopic instrument that consists of a force-sensing microcantilever, a laser source, a piezoelectric scanner and a photodiode detector (Figure 1A). During AFM imaging, the ...

3D printing technology has already transformed the field of biomedical research by allowing scientists to produce soft tissue, replacement windpipes, and working hearts on a whim. But each of these ...

The value measured by the 3D Cell Explorer is not fluorescence intensity of an exogenous molecule like with most optical microscopes. In contrast, Nanolive’s technology detects the physical refractive ...