A research group conducted quantitative individual analysis on the contribution to the strength of the micrometer-scale crystallographic lamellar structures and nanometer-sized cellular structures ...

The development could help scientists develop patient-specific treatments and one day offer a lab-grown lung transplant ...

The dual-phase interpenetrating architecture was came out from the microstructure of natural materials. Based on the such unique structure, bioinspired P/CCSs was designed and fabricated via 3D ...

The field of neuroscience is making incredible strides, with researchers now able to replicate the brain's intricate networks ...

Researchers have developed a 3D-printed lung tissue model that could help scientists better study and treat diseases.

The existing 3D-printed scaffolds commonly possess a thick feature size of hundreds of micrometers, which is too large for most cells (10–20 μm) to attach and proliferate for promoting tissue ...

(Nanowerk News) What if organ damage could be repaired by simply growing a new organ in the lab? Improving researchers’ ability to print live cells on demand into geometrically well-defined, soft ...

To explore possible treatments for various diseases, either animal models or human cell cultures are usually used first; ...

As the mobility and EV industry converges around a seemingly limited array of battery sizes and just three form factors, California-based Sakuu is suggesting a very different, seemingly endless range ...

A tiny elephant establishes a new stomping ground for 3-D printing: inside cells. For the first time, scientists have 3-D printed objects within living cells, including a 10-micrometer long elephant ...