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Posted: Dec 13, 2016
Rapid and mass production of graphene, using a microwave oven
(Nanowerk News) Graphene, a material that could usher in the next generation of electronic and energy devices, could be closer than ever to mass production, thanks to microwaves.
A new study by an international team of researchers from UNIST and Rutgers University has proved that it is now possible to produce high quality graphene, using a microwave oven. The team reports that this new technique may have solved some of graphene's difficult manufacturing problems. The findings of the research have been published in Science ("High-quality graphene via microwave reduction of solution-exfoliated graphene oxide").
Reducing graphene oxide sheets (prGON) into pristine graphene, using 1-to-2 second pulses of microwaves.
This study was jointly conducted by Dr. Jieun Yang, an alumna of UNIST, Prof. Hyeon Suk Shin (School of Natural Science) of UNIST, Prof. Hu Young Jeon (School of Natural Science) of UNIST, Prof. Manish Chhowalla of Rutgers University, and five other researchers from Rutgers University, New Brunswick, NJ, United States.
Graphene comes from a base material of graphite, the cheap material in the 'lead' of pencils. The structure of graphite consists of many flat layers of graphene sheets. One of the most promising ways to achieve large quantities of graphene is to exfoliate graphite into individual graphene sheets by using chemicals. However, the oxygen exposure during the process may cause some inevitable side reactions, as it can ultimately be very damaging to the individual graphene layers.
Indeed, oxygen distorts the pristine atomic structure of graphene and degrades its properties. Therefore, removing oxygen from graphene oxide to obtain high-quality graphene has been a significant challenge over the past two decades for the scientific community working on graphene.
Dr. Yang and her research team have discovered that baking the exfoliated graphene oxide for just 1-to-2 second pulses of microwaves, can eliminate virtually all of the oxygen from graphene oxides.
"The partially reduced graphene oxides absorb microwave energy, produced inside a microwave oven ," says Dr. Yang, the lead author of the study. She adds, "This not only efficiently eliminates oxygen functional groups from graphene oxides, but is also capable of rearranging defective graphene films."
The results indicate that the new graphene exibits substantially reduced oxygen concentration of 4% much lower than the currently existing graphene with an oxygen content in the range of 15% to 25%.
HR-TEM images of graphite oxide (left) and microwave-reduced graphene oxide (right).
Prof. Shin states, "Countries around the world, such as South Korea, U.S., England, and China have been investing heavily in research for the affordable, mass commercialization of graphene."
He adds, "The current method for mass-producing high-quality graphene lacks reproducibility, but holds huge untapped market potential. Therefore, securing the fundamental technology for mass production of graphene is an extremely important matter in terms of commercializing future promising industries."
The study's co-author, Prof. Manish Chhowalla is an associate chair in the Department of Materials Science and Engineering in Rutgers' School of Engineering and Director of the Rutgers Institute for Advanced Materials, Devices and Nanotechnology. Prof. Chhowalla has been working on a joint research project with Prof. Shin and Prof. Jeon of UNIST. Dr. Jieun Yang, a former student of Prof. Shin is now working as a post-doctoral associate in Chhowalla's group at Rutgers University.
Source: By Joo Hyeon Heo, Ulsan National Institute of Science and Technology (UNIST)