"These materials, once fabricated, will change shape autonomously," says Rafael Verduzco. (Credit: Jeremy Nixon/Flickr )

4D printing makes stuff that changes shape

"This opens the door to printing soft robotics that could swim like a jellyfish, jump like a cricket, or transport liquids like the heart."

Mike Williams-Rice • futurity
June 10, 2020 5 minSource

A new method called “reactive 4D printing” creates objects that can take on alternate forms in response to changes in temperature, electric current, or stress.

The method could bring soft robots and biomedical implants that reconfigure themselves upon demand closer to reality.

The researchers first reported their ability to make morphing structures in a mold in 2018. But using the same chemistry for 3D printing limited structures to shapes that sat in the same plane. That meant no bumps or other complex curvatures could be programmed as the alternate shape.

The process starts with a catalyst bath for the material, then deswelling, then deformation into the programmed under UV curing shape
A graphic shows the process by which researchers used 3D printing to make shapeshifting materials that may be useful to make soft robots or as biomedical implants. (Credit: Verduzco Laboratory/Rice)

Overcoming that limitation to decouple the printing process from shaping is a significant step toward more useful materials, says Rafael Verduzco, an associate professor of chemical and biomolecular engineering and of materials science and nanoengineering at Rice University .

“These materials, once fabricated, will change shape autonomously,” Verduzco says. “We needed a method to control and define this shape change. Our simple idea was to use multiple reactions in sequence to print the material and then dictate how it would change shape . Rather than trying to do this all in one step, our approach gives more flexibility in controlling the initial and final shapes and also allows us to print complex structures.”

The lab’s challenge was to create a liquid crystal polymer “ink” that incorporates mutually exclusive sets of chemical links between molecules. One establishes the original printed shape, and the other can be set by physically manipulating the printed-and-dried material. Curing the alternate form under ultraviolet light locks in those links.

Once the two programmed forms are set, the material can then morph back and forth when, for instance, it’s heated or cooled.

The researchers had to find a polymer mix that could be printed in a catalyst bath and still hold its original programmed shape.

“There were a lot of parameters we had to optimize—from the solvents and catalyst used, to degree of swelling, and ink formula—to allow the ink to solidify rapidly enough to print while not inhibiting the desired final shape actuation,” Barnes says.

One remaining limitation of the reactive 4D printing process is the ability to print unsupported structures, like columns. To do so would require a solution that gels just enough to support itself during printing, she says. Gaining that ability will allow researchers to print far more complex combinations of shapes.

“Future work will further optimize the printing formula and use scaffold-assisted printing techniques to create actuators that transition between two different complex shapes,” Barnes says. “This opens the door to printing soft robotics that could swim like a jellyfish, jump like a cricket, or transport liquids like the heart.”

Their work appears in ACS Applied Materials and Interfaces . Additional coauthors are from Rice and John Foster Dulles High School in Sugar Land, Texas.

The Welch Foundation for Chemical Research and the Army Research Office Chemical Sciences Division supported the research.

Source: Rice University

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