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Bhatia’s main research interests are in the modelling and simulation of adsorption and transport in nanoporous materials, and in heterogeneous reaction engineering, in which he pursues both applied and fundamental research on a variety of topics. One of the current subjects is the development of models for the reaction kinetics and transport processes in the green electrocatalytic reduction of carbon dioxide, as part of the research activities of the Australian Research Council Centre of Excellence. This is a novel route to reducing carbon dioxide emissions by converting it to useful chemicals and fuels, that is rapidly gaining increasing interest. In this technique, a porous electrode of complex structure is coated with nanoparticles of an electrocatalyst, on the surface of which carbon dioxide is reduced. Carbon dioxide (either pure gas or as part of flue gas) is fed into the electrolyser and must diffuse through the electrode’s structure to react with hydrogen ions in a liquid-phase electrolyte at the surface of the electrocatalyst. An added complexity is the intrusion of the electrolyte into the electrode, leading to its flooding and to a reduction in gas-phase transport rates. Bhatia’s research aims to gain an understanding of the complex interplay between gas-phase and electrolyte transport, and interfacial reaction kinetics, combining nanoscale models of transport and electrocatalytic kinetics with macroscopic electrode level models, and develop a comprehensive approach useful for process design and scale-up.
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Journal of Membrane Science (2024): 122510
JOURNAL OF MEMBRANE SCIENCE (2024): 122159-122159
Fuel (2023): 128914-128914
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JOURNAL OF PHYSICAL CHEMISTRY Cno. 4 (2023): 2035-2044
Journal of Statistical Physicsno. 3 (2023): 1-25
Electrochimica Acta (2023): 142772-142772
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