In a latest paper revealed in Nature, engineers at Columbia College, together with collaborators on the College of Montreal and the Nationwide Institute of Requirements and Expertise, found an oxygen-free chemical vapor deposition (OF-CVD) method. The method can produce high-quality graphene samples on a big scale, which establishes a direct correlation between oxygen and graphene high quality and exhibits how hint oxygen impacts the expansion price of graphene.
Graphene, a single layer of carbon atoms, has been hailed as “the wonder material of the 21st century.” Since its discovery in 2004, it has been hailed for a number of distinctive qualities, together with exceptionally excessive electrical conductivity and noteworthy tensile energy. Graphene might revolutionize electronics, power storage, sensors, biomedical units, and different industries. Nevertheless, it has a darkish secret: it’s unclean.
We present that eliminating just about all oxygen from the expansion course of is the important thing to reaching reproducible, high-quality CVD graphene synthesis. This can be a milestone in direction of large-scale manufacturing of graphene.
James Hone, Examine Senior Writer and Wang Fong-Jen Professor, Mechanical Engineering, Columbia Engineering
Traditionally, there have been two strategies used to synthesize graphene. There may be the “scotch-tape”` methodology, which entails utilizing family tape to peel particular person layers from a bulk pattern of graphite, which is identical materials as pencil lead. Exfoliated samples of this sort might be very pure and devoid of contaminants that might in any other case have an effect on the advantageous traits of graphene. They’re higher fitted to lab analysis as a result of they’re usually too small – only a few tens of micrometers throughout – for industrial-scale purposes.
About 15 years in the past, researchers created a method to synthesize large-area graphene, which has gone from lab experiments to sensible purposes. In CVD progress, a carbon-containing gasoline, comparable to methane, is handed over a copper floor. The gasoline’s temperature is raised to some extent the place the methane fragments and carbon atoms reorganize to kind a single layer of graphene that resembles a honeycomb.
It’s doable to scale up CVD progress to supply graphene samples with a dimension of centimeters and even meters. Nevertheless, regardless of years of labor from analysis teams worldwide, CVD-synthesized samples have struggled with problems with reproducibility and variable high quality.
Oxygen was the issue. Co-authors Richard Martel and Pierre Levesque of Montreal had beforehand demonstrated that minute concentrations of oxygen might impede progress and even take away graphene. Due to this fact, roughly six years in the past, Christopher DiMarco, GSAS’19, designed and constructed a CVD progress system that allowed for exact management over the quantity of oxygen added throughout the deposition course of.
DiMarco’s work was carried out by present Ph.D. candidates Xingzhou Yan and Jacob Amontree, who enhanced the expansion system. They found that CVD progress was persistently quicker when hint oxygen was eliminated. Moreover, they investigated the kinetics of oxygen-free CVD graphene progress and found that progress price might be predicted over a wide range of parameters, comparable to temperature and gasoline stress, utilizing a simple mannequin.
The OF-CVD-grown samples’ high quality turned out to be nearly the identical as that of exfoliated graphene. Their graphene, produced in cooperation with physics division colleagues at Columbia, supplied compelling proof for the fractional quantum Corridor impact within the presence of magnetic fields—a quantum phenomenon that was beforehand labored in extraordinarily high-quality, two-dimensional electrical programs.
The final piece of the jigsaw to make the most of this superb materials is for the crew to plot a clear approach to switch their wonderful graphene from the steel progress catalyst to different practical substrates like silicon.
We each turned fascinated by graphene and its potential as undergraduates. We performed numerous experiments and synthesized 1000’s of samples over the previous 4 years of our Ph.Ds. Seeing this examine lastly come to fruition is a dream come true.
Amontree and Yan
Journal Reference:
Amontree, J., et al. (2024) Reproducible graphene synthesis by oxygen-free chemical vapor deposition. Nature. doi.org/10.1038/s41586-024-07454-5
Supply:
https://www.engineering.columbia.edu/