Dal Young Yoon scite author profile

The lean NOx aftertreatment is one of the major barriers to the widespread adoption of advanced combustion powertrains for the reduction of both greenhouse gases and toxic exhausts. Urea/SCR, selective catalytic reduction of NOx by NH3 generated through urea decomposition, is commonly regarded as the best way to reduce NOx in low temperature lean exhaust. However, the urea/SCR system has inherent drawbacks, i.e., periodic refill of the aqueous urea solution and a complicated hardware system. Here, we demonstrated a state-of-the-art catalyst that is extremely selective and efficient for reducing NOx, primarily with the most abundant reductant, CO, particularly in the presence of O2 (>5%) at low temperature. Under temperatures lower than 250 °C, IrRu/Al2O3 catalysts achieved higher NOx conversion by CO only than a commercial Cu-based urea/SCR catalyst employing NH3 as a primary reductant. Furthermore, the IrRu catalyst revealed high thermal stability and SO2 tolerance, which are very important factors for real world applications.

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Thermal stability of Pd-containing LaAlO3 perovskite as a modern TWC

Yoon

Kim

Lim

et al. 2015

Journal of Catalysis

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Dal Young Yoon

NO oxidation activity of Ag-doped perovskite catalysts

Activity and thermal stability of Rh-based catalytic system for an advanced modern TWC

DeNOx performance of Ag/Al2O3 catalyst by n-dodecane: Effect of calcination temperature

Urealess NOx Reduction by Carbon Monoxide in Simulated Lean-Burn Exhausts

Thermal stability of Pd-containing LaAlO3 perovskite as a modern TWC

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