Electrochemical Advances to Enable Efficient Oxygen, Hydrogen and Water Reactions I | AIChE

Electrochemical Advances to Enable Efficient Oxygen, Hydrogen and Water Reactions I

Chair(s)

McCrum, I., Clarkson University

Co-chair(s)

Xu, H., Giner, Inc.
Daramola, D., Ohio University
Kidambi, P., Vanderbilt University

The electrochemical conversion of oxygen, hydrogen and water molecules plays a critical role in several applications ranging from electrolyzers to fuel cells. In the three key components of the cell - anode, cathode and electrolyte - materials and operational advances can lead to a reduction in the amount of energy that is wasted during these transformations. This symposium will focus on the most recent materials-level and cell-level advances that have been made to reduce overpotentials, or costs, in aqueous electrochemical systems. Selected topics of interest include: development of new catalysts (both noble metal and noble-metal free) for the oxygen evolution/reduction and hydrogen evolution/oxidation reactions in acid and alkaline media, novel electrolytes, novel cell architectures, and the influence cell operating conditions (temperature, pressure, etc.). Both experimental and theoretical studies are encouraged.

Presentations

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Pricing

Individuals

AIChE Pro Members $150.00
AIChE Emeritus Members $105.00
AIChE Graduate Student Members Free
AIChE Undergraduate Student Members Free
AIChE Explorer Members $225.00
Non-Members $225.00