Selection for fitness at the individual or population levels: Modelling effects of genetic modifications in microalgae on productivity and environmental safety
(2010)
Journal Article
Flynn, K., Greenwell, H., Lovitt, R., & Shields, R. (2010). Selection for fitness at the individual or population levels: Modelling effects of genetic modifications in microalgae on productivity and environmental safety. Journal of Theoretical Biology, 263(3), https://doi.org/10.1016/j.jtbi.2009.12.021
Placing microalgae on the biofuels priority list: a review of the technological challenges (2010)
Journal Article
Greenwell, H., Laurens, L., Shields, R., Lovitt, R., & Flynn, K. (2010). Placing microalgae on the biofuels priority list: a review of the technological challenges. Journal of the Royal Society. Interface, 7(46), 703-726. https://doi.org/10.1098/rsif.2009.0322
Clay Minerals Mediate Folding and Regioselective Interactions of RNA: A Large-Scale Atomistic Simulation Study (2010)
Journal Article
Swadling, J., Coveney, P., & Greenwell, H. (2010). Clay Minerals Mediate Folding and Regioselective Interactions of RNA: A Large-Scale Atomistic Simulation Study. Journal of the American Chemical Society, 132(39), 13750-13764. https://doi.org/10.1021/ja104106y
Role of Clay Minerals in Oil-Forming Reactions (2010)
Journal Article
Geatches, D. L., Clark, S. J., & Greenwell, H. C. (2010). Role of Clay Minerals in Oil-Forming Reactions. The Journal of Physical Chemistry A, 114(10), 3569-3575. https://doi.org/10.1021/jp9096869Mineral-catalyzed decarboxylation reactions are important in both crude oil formation and, increasingly, biofuel production. In this study we examined decarboxylation reactions of a model fatty acid, propionic acid, C2H5COOH, to an alkane, C2H6, in a... Read More about Role of Clay Minerals in Oil-Forming Reactions.