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A nickel doped perovskite catalyst for reforming methane rich biogas with minimal carbon deposition (2014)
Journal Article
Evans, S. E., Staniforth, J. Z., Darton, R. J., & Ormerod, R. M. (2014). A nickel doped perovskite catalyst for reforming methane rich biogas with minimal carbon deposition. Green Chemistry, 16(10), 4587-4594. https://doi.org/10.1039/c4gc00782d

A novel nickel-doped strontium zirconate perovskite catalyst for biogas reforming has been synthesised using a green, low temperature hydrothermal synthesis. The catalyst has been shown to be very efficient towards the conversion of methane-rich biog... Read More about A nickel doped perovskite catalyst for reforming methane rich biogas with minimal carbon deposition.

A novel perovskite based catalyst with high selectivity and activity for partial oxidation of methane for fuel cell applications (2014)
Journal Article
Staniforth, J., Evans, S. E., Good, O. J., Darton, R. J., & Ormerod, R. M. (2014). A novel perovskite based catalyst with high selectivity and activity for partial oxidation of methane for fuel cell applications. Dalton Transactions, 43(40), 15022-15027. https://doi.org/10.1039/c4dt01288g

Solid oxide fuel cells (SOFCs) have the potential to revolutionise the present fuel economy due to their higher fuel conversion efficiency compared with standard heat engines and the possibility of utilizing the heat produced in a combined heat and p... Read More about A novel perovskite based catalyst with high selectivity and activity for partial oxidation of methane for fuel cell applications.

Overcoming carbon deactivation in biogas reforming using a hydrothermally synthesised nickel perovskite catalyst (2014)
Journal Article
Evans, S. E., Good, O. J., Staniforth, J. Z., Ormerod, R. M., & Darton, R. J. (in press). Overcoming carbon deactivation in biogas reforming using a hydrothermally synthesised nickel perovskite catalyst. RSC advances, 4(58), 30816-30819. https://doi.org/10.1039/c4ra00846d

A hydrothermally synthesised nickel-strontium zirconate perovskite is shown to have excellent selectivity towards biogas reforming without suffering from deactivation due to carbon formation. Experiments reveal that this material is capable of very e... Read More about Overcoming carbon deactivation in biogas reforming using a hydrothermally synthesised nickel perovskite catalyst.