Air pollution and climate issues are becoming serious, and particularly NO x cause acid rain,
ozone hole and disease of respiratory system for humans, which mainly come from …

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 …

The development of catalysts with high NH 3-SCR activity in the presence of SO 2 was
urgent for non-electric industries to control NO x emission at low temperature. Herein, a …

To clarify the Fe doped effects over activated carbon (AC) supported Mn-Ce oxide catalysts
and study the influence of Fe addition on the AC, several Mn/Ce/Fe mixed oxide catalysts …

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 …

It is a major challenge to develop the low–temperature catalysts (LTC,< 250° C) with
excellent efficiency and stability for selective catalytic reduction (SCR) of NO x by NH3 from …

In the field of nitrogen oxides (NO x) abatement, developing selective catalytic reduction
(SCR) catalysts that can operate stably in the practical conditions remains a big challenge …

Cr-Mn mixed-oxide catalysts were prepared by citric acid method for low-temperature NH 3-
SCR of NOx. Mn (3) Cr (2) Ox (molar ratio) catalyst has an excellent NOx conversion of …

MnO x/TiO2 (anatase) nanosheets (NS) with a preferentially exposed {001} facet was found
to be a better catalyst for selective catalytic reduction (SCR) of NO than conventionally …

In this work, a novel 10% Mn/Fe–Ti spinel catalyst with an excellent N 2 selectivity was
developed for the selective catalytic reduction (SCR) of NO with NH 3 at low temperatures …