All Outputs (2)

The phase equilibrium and density studies of the ternary mixtures of CO2 + Ar + N2 and CO2 + Ar + H2, systems relevance to CCS technology (2016)
Journal Article
Ke, J., Suleiman, N., Sanchez-Vicente, Y., Murphy, T. S., Rodriguez, J., Ramos, A., …George, M. W. (2017). The phase equilibrium and density studies of the ternary mixtures of CO2 + Ar + N2 and CO2 + Ar + H2, systems relevance to CCS technology. International Journal of Greenhouse Gas Control, 56, 55-66. https://doi.org/10.1016/j.ijggc.2016.11.003

The p-T phase diagrams of two ternary systems (CO2 + Ar + N2 and CO2 + Ar + H2) have been measured at temperatures between 268 and 303 K using a fibre-optic phase equilibrium analyser. CO2, which is the major component, has a mole fraction ranging fr... Read More about The phase equilibrium and density studies of the ternary mixtures of CO2 + Ar + N2 and CO2 + Ar + H2, systems relevance to CCS technology.

Enabling the Scale-Up of a Key Asymmetric Hydrogenation Step in the Synthesis of an API Using Continuous Flow Solid-Supported Catalysis (2016)
Journal Article
Amara, Z., Poliakoff, M., Duque, R., Geier, D., Franciò, G., Gordon, C. M., …Leitner, W. (2016). Enabling the Scale-Up of a Key Asymmetric Hydrogenation Step in the Synthesis of an API Using Continuous Flow Solid-Supported Catalysis. Organic Process Research and Development, 20(7), 1321-1327. https://doi.org/10.1021/acs.oprd.6b00143

© 2016 American Chemical Society. The development of a continuous flow process for asymmetric hydrogenation with a heterogenized molecular catalyst in a real industrial context is reported. The key asymmetric step in the synthesis of an API (active p... Read More about Enabling the Scale-Up of a Key Asymmetric Hydrogenation Step in the Synthesis of an API Using Continuous Flow Solid-Supported Catalysis.