Posted on 05/10/2013 10:09:26 PM PDT by neverdem
The products of thermally exfoliating graphite oxide to make graphene are much more complex than previously thought, new research shows. The volatile compounds formed vary with reaction conditions, and may influence the graphenes structure.
The most common way to prepare graphene is by thermally reducing or exfoliating graphite oxide. But the graphene produced often contains defects and lacks the perfect honeycomb structure. One explanation is that these defects may be the result of organic by-products forming and escaping as gases during the reaction.
It has been commonly believed that the only gaseous products of graphite oxide exfoliation are water, carbon monoxide and carbon dioxide, explains Martin Pumera from Nantang Technological University, Singapore, who led the work. But this belief was based on only a few studies which never looked for anything more complex.
Pumera and his colleagues exfoliated graphite oxide in an autoclave at 500°C for two hours, then analysed the gases produced using gas chromatography-mass spectrometry (GC-MS). They detected a large number of volatiles, including many polycyclic aromatic molecules, and several containing sulfur and nitrogen from contaminants in the graphite oxide starting material.
Moreover, the nature of the volatiles released varied with pressure (2 bar versus 100 bar) and the gaseous atmosphere in which the exfoliation was carried out (hydrogen versus inert argon). The way the graphite oxide was prepared also had an effect samples prepared via the Hummers method, which uses sulfuric acid, sodium nitrate, and potassium permanganate, yielded the highest number of volatiles.
Understanding these by-products is crucial, as they can affect the structure of the resultant graphene, which influences its future use, says Pumera. He suggests that measuring the volatiles produced during exfoliation could help determine the nature of defects.
Pance Naumov, a materials chemist at New York University Abu Dhabi, United Arab Emirates, agrees that the findings have implications for routine exfoliation of graphite oxide. These observations should be taken into account in future plans for large scale production of graphene using this methodology, he says.
Z Sofer, P imek and M Pumera, Phys. Chem. Chem. Phys., 2013, DOI: 10.1039/c3cp51189h
W’s fault.
I understand graphene will revolutionize the tech world. Could this exfoliation be a problem?
"The most common way to prepare graphene is by thermally reducing or exfoliating graphite oxide. But the graphene produced often contains defects and lacks the perfect honeycomb structure."
I love to exfoliate
LMAO! Boy, did this come in from left field!
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