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Engraving 3D images with light

21.08.2024 - Chemical switch and projector make any polymer a reusable 3D canvas.

Imagine if physicians could capture three-dimen­sional projec­tions of medical scans, suspending them inside an acrylic cube to create a hand-held reproduction of a patient’s heart, brain, kidneys, or other organs. Then, when the visit is done, a quick blast of heat erases the projection and the cube is ready for the next scan. Now, researchers at Dartmouth and Southern Methodist Uni­versity outlines a technical breakthrough that could enable such scenarios, and others, with widespread utility. The study intro­duces a technique that uses a specialized light projector to imprint two- and three-dimensional images inside any polymer that contains a photo­sensitive chemical additive the team developed. The light-based engraving remains in the polymer until heat is applied, which erases the image and makes it ready to use again.

In short, the researchers write with light and erase with heat or light, says Ivan Aprahamian. In test trials, the researchers produced high-resolution images in polymers ranging from thin films to six inches thick. The techno­logy is intended for any situation where having detailed, precise visual data in a compact and easily customizable format could be critical, Aprahamian says, such as planning surgeries and developing archi­tectural designs. The device also could be used for generating 3D images for education and even creating art, he says.

“This is like 3D printing that is reversible,” Apra­hamian says. “You can take any polymer that has the optimal optic properties – that is, it’s translucent – and enhance it with our chemical switch. Now that polymer is a 3D display. You do not need virtual reality headsets or complicated instru­mentation. All you need is the right piece of plastic and our technology.” Readily available polymers such as an acrylic cube could be trans­formed into a display with the addition of the light-sensitive chemical switch formulated by Aprahamian and postdoc Qingkai Qi. The switch consists of azo­benzene that reacts to light paired with boron difluoride, which enhances the switch’s optical properties.

Once integrated with a polymer, the switch reacts to wavelengths of red and blue light beamed from a projector developed in the lab of Alex Lippert from Southern Methodist University. The red light acts like ink by acti­vating the chemical additive to create the image, Aprahamian says. Blue light can then be used to erase it.

The projector illuminates the treated polymer from different angles with various patterns of light, Lippert explains. The photo­sensitive chemical developed in Aprhamian’s lab is activated where these patterns intersect to produce 3D patterns. Creating 3D projections from 2D images such as a chest X-ray would mean projecting slices of the original image into a polymer cube or other shape until the slices combine to form the full 3D image, Lippert says.

The researchers have been able to produce animated images in polymers, and future work revolves around improving that process. In the meantime, the technology could be developed for practical use in its current form, such as for industry or health care. “Scaling up requires tuning the chemical switch properties to improve reso­lution, contrast, and refresh rate,” Lippert says. “The projector system can in principle be scaled up and developed into a turnkey system with automated hardware and asso­ciated software for easy use.” (Source: Dartmouth Col.)

Reference: Q. Qi et al.: A photoswitchable handheld volumetric 3D display, Chem, online 9 August 2024; DOI: 10.1016/j.chempr.2024.07.012

Link: Aprahamian research group, Dept. of Chemistry, Dartmouth College, Hanover, USA

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