Record holder: GUINNESS WORLD RECORDS ™ names engineers’ graphene aerogel as world's least dense 3-D printed structure

A square sample of 3-D printed graphene aerogel is so lightweight that a wheat plant's individual awn can hold it without bending. The material – developed by engineers from Kansas State University, the University at Buffalo and Lanzhou University in China - has been declared the lightest 3-D printed material in the world by GUINNESS WORLD RECORDS. Credit: Kansas State University.

“We didn’t plan on setting a record, but it’s certainly a nice recognition of our work. I think this helps show the enormous potential that graphene aerogel has in our daily lives. ”

BUFFALO, N.Y. — The world's lightest 3-D printed structure is so lightweight that it can be placed on top of a cotton ball or the petals of a flower.

The record-breaking material is 3-D printed graphene aerogel and it was developed by Chi Zhou, assistant professor of industrial and systems engineering at University at Buffalo; Dong Lin, Kansas State University (KSU) assistant professor of industrial and manufacturing systems engineering; and Qiangqiang Zhang, an associate professor at Lanzhou University in China.

GUINNESS WORLD RECORDS has named the graphene aerogel as “the least dense 3-D printed structure.” The 3-D printed graphene aerogel, fabricated at UB and KSU, weighs 0.5 milligrams per cubic centimeter. The researchers developed the material in February 2016 and have received the official recognition from GUINNESS WORLD RECORDS. Their achievement will be featured in the GUINNESS WORLD RECORDS 2018 Edition.

“Graphene is a revolutionary material and it makes sense that its aerogel form would be just as important," Lin said. "Our 3-D printed graphene aerogel has important properties that give the material many applications for better electronics, batteries or semiconductors.”

Not only is the 3-D printed material groundbreaking, but the way the researchers print the three-dimensional graphene is just as revolutionary.

Graphene is a single atom-thick sheet of hexagonally coordinated carbon atoms, which makes it the world's thinnest material and gives it valuable physical and electronic properties.

To 3-D print graphene aerogel, the researchers use a modified inkjet printer that uses two nozzles. They 3-D print droplets of a graphene oxide and water mixture in a freezer on a cold plate that is -20 degrees Celsius. This method creates a 3-D ice structure of graphene and frozen water, which helps the graphene to maintain its shape, Lin said.

When printing is complete, the researchers place the 3-D material in a freeze dryer, which removes the ice by providing high vacuum and low temperature. What's left is a three-dimensional graphene aerogel that maintains its shape at room temperature.

“We didn’t plan on setting a record, but it’s certainly a nice recognition of our work,” Zhou said. “I think this helps show the enormous potential that graphene aerogel has in our daily lives.”