![3D laser-induced graphene foam](https://www.nanowerk.com/nanotechnology-news/id50440_1.jpg)
The technique detailed in Advanced Materials ("Laminated Object Manufacturing of 3D-Printed Laser-Induced Graphene Foams") is an extension of groundbreaking work by the Tour lab that produced the first laser-induced graphene (LIG) in 2014 by heating inexpensive polyimide plastic sheets with a laser.
The laser burns halfway through the plastic and turns the top into interconnected flakes of 2D carbon that remain attached to the bottom half. LIG can be made in macroscale patterns at room temperature.
The lab extended its technique to create LIG on wood and even food, but 3D objects of pure graphene were less practical until now, Tour said.
“Now we have built a prototype machine that lets us make graphene foam into 3D objects through automated successive layering and laser exposure,” Tour said. “This truly brings graphene into the third dimension without furnaces or the need for metal catalysts, and our process is easily scaled.”
The new method is based on laminated object manufacturing, in which layers of a material are assembled and then cut to shape. In this case, the bottom LIG layer remains attached to its polyimide base. A second layer is coated with ethylene glycol and placed facedown on the first, like a jelly sandwich. Its polyimide top is then burned into graphene; the process is repeated until the block is complete.
The ethylene glycol binder is evaporated away on a hot plate, and any remaining polyimide can be removed in a furnace. That leaves a pristine, spongy carbon block, said Duy Xuan Luong, a Rice graduate student and co-lead author of the paper. The Rice lab stacked up to five layers of foam and then used a custom-built fiber lasing system on a modified 3D printer to mill the block into complex shapes.
The lab assembled proof-of-concept lithium-ion capacitors that used 3D LIG as both anodes and cathodes. The anode’s gravimetric capacity of 354 milliamp hours per gram neared the theoretical limit of graphite, while the cathode’s capacity exceeded the average capacity of other carbon materials. Full test cells retained about 70 percent of their capacity after 970 charge-discharge cycles.
![scientists have layered laser-induced graphene and built a prototype that shapes the resulting 3D blocks into sophisticated shapes](https://www.nanowerk.com/nanotechnology-news/id50440.jpg)