Engineering a molecular electrocatalytic system for energy-efficient ammonia production from wastewater nitrate

09 February 2024, Version 2
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

Haber-Bosch ammonia production and utilization has sustained exponential population growth but exacerbated wastewater nitrate pollution. Abundant nitrate pollutants could be refined to purified nitrogenous chemicals with the electrochemical nitrate reduction reaction (NO3RR). However, the dilute and impure composition of nitrate-rich wastewaters presents barriers to realizing practical electrocatalytic systems that to date operate most efficiently in concentrated, pure electrolytes. These barriers inform our investigation of the ammonia-selective homogeneous molecular NO3RR catalyst Co(DIM). In this work, we elucidate interfacial mechanisms of catalysis inhibition that describe Co(DIM)-mediated NO3RR performance in complex electrolyte compositions. These mechanisms inform design principles for a novel reactive separations platform, electrocatalyst-in-a-box (ECaB), that exhibits the lowest reported energy consumption for purified ammonia production from a real wastewater (90.0 ± 2.7 kWh kg-N–1). This work demonstrates a use-informed design approach that iterates between mutually informative mechanistic insights and performance of electrochemical wastewater refining systems in complex aqueous streams.

Keywords

Nitrate reduction
Electrocatalysis
Homogeneous catalysis
Reactive separation

Supplementary materials

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Supplementary Information for: Engineering a molecular electrocatalytic system for energy-efficient ammonia production from wastewater nitrate
Description
Supplementary Figs. S1-S31, Tables S1-S2, and Equations S3.1.1-6.1.11.
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