Catalytic activity of niobium oxide supported bimetallic nanocatalysts (IrxPt1-x/Nb2O5) for oxidation of formaldehyde at moderate temperature

“…60 Therefore, catalytic oxidation of formaldehyde over the Fe–N–C sample is the dominant factor for RE of formaldehyde. The RE of formaldehyde at 25 °C is about 85% (0% RH), which is significantly higher than the previously reported value, 11,12,16,61–68 indicating that the Fe–N–C sample synthesized in the experiment has high catalytic activity at room temperature. In detail, the experimental conditions and RE of formaldehyde in the previous literature are listed in Table S13 †.…”

Excellent room temperature catalytic activity for formaldehyde oxidation on a single-atom iron catalyst in a moist atmosphere

“…60 Therefore, catalytic oxidation of formaldehyde over the Fe–N–C sample is the dominant factor for RE of formaldehyde. The RE of formaldehyde at 25 °C is about 85% (0% RH), which is significantly higher than the previously reported value, 11,12,16,61–68 indicating that the Fe–N–C sample synthesized in the experiment has high catalytic activity at room temperature. In detail, the experimental conditions and RE of formaldehyde in the previous literature are listed in Table S13 †.…”

Excellent room temperature catalytic activity for formaldehyde oxidation on a single-atom iron catalyst in a moist atmosphere

Indoor formaldehyde removal by catalytic oxidation, adsorption and nanofibrous membranes: a review