'Faster, coloured 3D printing method developed'

Scientists have developed a faster and cost-effective 3D printing method that can be used to print objects in all the colours.

People are exploring the use of 3D printing for wide-ranging applications, including manufacturing, medical devices, fashion and even food, according to the study published in the journal Nano Letters.

However, one of the most efficient forms of 3D printing suffers from a major drawback: It can only print objects that are gray or black in colour.

Now, researchers at The Institute of Photonic Sciences (IFCO) in Spain have tweaked the method so it can print in all the colours of the rainbow.

Selective laser sintering (SLS) printers use a laser to heat specific regions of a powdered material, typically nylon or polyamide, so that the powder melts or sinters to form a solid mass.

The printer then selectively sinters new powdered material layer by layer until the desired 3D structure is obtained.

To reduce the energy requirements of the process, researchers have added compounds called photosensitisers to the polymer powders.

These materials, such as carbon nanotubes, carbon black and graphene, absorb light much more strongly than the polymers and transfer heat to them, enabling the use of cheaper, lower-power lasers.

However, the carbon-based photosensitisers can only produce printed objects that are gray or black.

Gerasimos Konstantatos, Romain Quidant and colleagues at IFCO wanted to find a photosensitiser that would enable colour printing by the SLS method.

The researchers designed gold nanorods to strongly absorb in the near-infrared region of the spectrum while being almost transparent to visible light.

They coated them with silica and then mixed them with polyamide powders to print 3D objects.

They found that the gold nanorods were much better at converting light from the laser to heat than carbon black, the industry standard.

The new photosensitisers could also produce much whiter and - when mixed with dyes - brightly coloured 3D objects.

Importantly, the materials are cost-effective for large-scale production, researchers said.