Carbon monoxide (CO) has recently been considered an ideal reducing agent to replace
NH 3 in selective catalytic reduction of NO x (NH 3–SCR). This shift is particularly relevant in …

Carbon monoxide (CO) and nitric oxide (NO) are widely present in industrial flue gas such
as sintering coking, and automobile exhaust gas. Their long-term presence in the …

In this paper, the room temperature hydrothermal synthesis method was used instead of the
traditional solvothermal synthesis method to successfully prepare Cu-BTC, the growth of Cu …

The selective catalytic reduction of NO x by CO (CO-SCR) is considered a promising
alternative to NH 3-SCR technology because it can simultaneously reduce both harmful …

The CO-SCR technology based on transition metal is of great significance for NO x removal
in large-scale industrial production. However, excess oxygen usually hinders the deNO x …

In this work, novel bimetallic Mg-Ca/DOBDC MOFs (a MOFs built of Mg (OAc) 2· 4H 2 O and
Ca (OAc) 2· H 2 O linked by 2, 5-dioxido-1, 4-benzenedicarboxylate (DOBDC) ligands) were …

Low-temperature NH3-SCR is an efficient technology for NO x removal from flue gas. The
carbon-based catalyst designed by using porous carbon material with great specific surface …

Selective catalytic reduction of nitrogen oxides using carbon monoxide is considered a
promising technology due to a series of advantages. Three α-Fe 2 O 3 catalysts for CO-SCR …

The technology for the selective catalytic reduction of NOx by CO (CO-SCR) has the
capability to simultaneously eliminate CO and NOx from industrial flue gas and automobile …

Nitrogen oxides (NOx) are one of the air pollutants, mainly from coal‐fired power plants,
industrial furnaces, etc. In order to control NOx, reduce the preparation cost of denitration …