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CVD Single Layer Graphene Significantly Enhances Fuel Cell Efficiency– MSE Supplies LLC

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CVD Single Layer Graphene Significantly Enhances Fuel Cell Efficiency

Posted by MSE Supplies on

Graphene is increasingly studied as a promising platform for developing novel separation technologies in applications such as fuel cells.  This interest has arisen because graphene is a maximally thin membrane that, once perforated with atomic accuracy, may allow ultrafast and highly selective sieving of gases, liquids, dissolved ions and other species of interest.  

High quality single layer graphene films can be ordered from msesupplies.com. 

It is known that Andre Geim and co-workers (Nature, A.K. Geim et.al 2014), discovered proton transfer through single layer graphene and other 2D materials. Also graphene is known for its dense lattice packing structure, inhibiting the passage of methanol and other hydrocarbon-based molecules across the membrane. However, the actual application of these 2D materials in fuel cell systems has not yet been realized.

Figure: Schematic showing proton transport through the membrane region of a methanol fuel cell.

Researchers from the School of Chemical Engineering and Analytical Science at the University of Manchester have come up with a way to utilize these 2D materials in an actual operating direct methanol fuel cell. In their recently published paper in the journal Advanced Energy Materials (Holmes et al, 2016), they have shown that the addition of single layer graphene by chemical vapour deposition on to the membrane area has significantly reduced methanol cross over, while simultaneously causing negligible resistance to proton transport, thereby enhancing the cell performance by 50%. This first proof of concept shows that 2D materials make for excellent barrier materials for fuel cells.

High quality single layer graphene films can be ordered from msesupplies.com. 

Moreover, the work shows that high efficiency membraneless fuel cells could be realized in the near future. This technology could further be extended to other fuel cells types, namely hydrogen fuel cells.

Hydrogen fuel cells suffer from the usage of high cost humidifiers that keep the membrane in a humid atmosphere for improved proton conductivity. Graphene however, as reported in earlier studies, showed improved proton conductivity with increasing temperature without the need for humidifier systems. Utilizing graphene in fuel cells could make a significant contribution to satisfying future energy demands.

Articles:

Holmes, Stuart M., Prabhuraj Balakrishnan, Vasu. S. Kalangi, Xiang Zhang, Marcelo Lozada-Hidalgo, Pulickel M. Ajayan, and Rahul R. Nair. 2016. "2D Crystals Significantly Enhance The Performance Of A Working Fuel Cell". Advanced Energy Materials, 1601216. doi:10.1002/aenm.201601216.

S. Hu, M. Lozada-Hidalgo, F. C. Wang, A. Mishchenko, F. Schedin, R. R. Nair, E. W. Hill, D. W. Boukhvalov, M. I. Katsnelson, R. A. W. Dryfe, I. V. Grigorieva, H. A. Wu & A. K. Geim. 2014. "Proton transport through one-atom-thick crystals". Nature 516, 227–230. doi:10.1038/nature14015

High quality single layer graphene films can be ordered from msesupplies.com. 


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