3D printing, also known as additive manufacturing, enables the fabrication of scaffolds with precise control over geometry, pore size, and spatial distribution of materials. Various 3D printing ...

Tissue engineering utilizes 3D printing and bioink to grow human cells on scaffolds, creating replacements for damaged ...

As medical devices become smaller and more complex, traditional manufacturing methods struggle to meet the need for precision ...

Additive manufacturing is seen by many as one of the main driving forces behind the digital manufacturing revolution. Digital manufacturing integrates advanced technology like CAD (Computer-Aided ...

LLNL advances cellular fluidics with multi-material 3D printing - producing lattice structures with a series of custom-designed unit cells.

Schematic representation of Reactive inkjet printing of two inks (green and blue ... how these imaging methods could shed light on my own work with silk-based 3D-printed biomaterials. X-ray ...

Researchers have developed a 3D-printed |brain-like environment| where neurons grow similarly to a real brain.

"MEW is a multifaceted 3D printing technology that also has applications in bioengineering, biomaterials science, and soft robotics," Dr. Mieszczanek said. "However, it has faced many challenges ...

Oak Ridge National Laboratory researchers are using a new bioderived material to 3D print custom roosting structures for ...

Key cells in the brain, neurons, form networks by exchanging signals, enabling the brain to learn and adapt at incredible ...