Ir Impregnation on Alumina Pores: Catalyst Activity and Loss During Hydrazine Decomposition

Abstract: Catalytic decomposition of hydrazine over Ir/γ‐Al2O3 was investigated using catalysts with different Ir content. The catalysts were characterized by XRD, XRF, BET, and TEM. Results indicated that with increasing Ir content from 5.6 to 40.8 wt%, the BET surface area and pore volume decreased. This decrease was more significant when Ir content increased from 34.3 to 40.8 wt%. Reactor tests also indicated that the maximum stable reactor pressure of 2180 kPa with the time of about 400 milliseconds to obtain this p… Show more

“…26 Also, the reason for the N 2 H 4 decomposition activity differences between Ir and Ru catalysts is still unclear. [27][28][29] On the other hand, the current synthetic methods for heavy-loading Ir and Ru catalysts are inconvenient, usually requiring multiple repetitive impregnation processes. 30 In this study, we synthesized Ir and Ru catalysts with homogeneous dispersion by a one-step polyol method.…”

A one-step polyol method for well-dispersed and heavily-loaded Ir and Ru catalysts in hydrazine decomposition

“…26 Also, the reason for the N 2 H 4 decomposition activity differences between Ir and Ru catalysts is still unclear. [27][28][29] On the other hand, the current synthetic methods for heavy-loading Ir and Ru catalysts are inconvenient, usually requiring multiple repetitive impregnation processes. 30 In this study, we synthesized Ir and Ru catalysts with homogeneous dispersion by a one-step polyol method.…”

A one-step polyol method for well-dispersed and heavily-loaded Ir and Ru catalysts in hydrazine decomposition

Method for Preventing the Contamination of Iridium Nanocatalyst during Plasma Arc Welding Procedure

Iridium and IrOx nanoparticles: an overview and review of syntheses and applications