Manganese dioxide (MnO2) is a promising photo–thermo–electric‐responsive
semiconductor material for environmental applications, owing to its various favorable …

Selective catalytic reduction technology has been widely used to remove NO x. However,
the development of low-temperature selective catalytic reduction catalysts with high removal …

Abstract Metals doped MnOx-CeO 2 catalysts with a molar ratio of M: Mn: Ce= 1: 4: 5 (M=
Cu, Co, Cr, Ni, Fe, Sn, Mg) were prepared by a co-precipitation method for low-temperature …

Selective catalytic reduction (SCR) technology has been widely used for the removal of NO x
from flue gas. However, it is still a challenge to develop novel low-temperature catalysts for …

Different valence states manganese oxides catalysts (MnO 2, Mn 2 O 3 and Mn 3 O 4) were
synthesized to investigate their N 2 O formation pathways during NH 3–SCR of NO process …

A hybrid catalytic system comprised of metal oxide and Cu or Fe exchanged zeolite
components represents a potential advancement of state-of-the-art for selective catalytic …

Low-temperature NH 3-SCR is an environmentally important reaction for the abatement of
NO x from stationary sources. In recent years FeMnO x has attracted significant attention as …

Selective catalytic reduction of NO with NH3 (NH3-SCR) is a powerful technique for the
abatement of NOx from stationary sources, and the currently used VOx/TiO2-based catalysts …

Sulfur poisoning is a common problem causing catalyst deactivation during the industrial
catalytic process. However, for selective catalytic reduction of NO x with ammonia (NH3 …

The removal of NOx by catalytic technology at low temperatures (100–300° C) is significant
for flue gas of industry and exhaust gas of diesel engine; however, to develop the low …