Activation of O2 is a crucial step in oxidation processes. Here, the concept of sp-hybridized
C≡ C triple bonds as an electron donor is adopted to develop highly active and stable …

This paper presents a detailed review of copper-based catalysts used in wide-ranging
environmental remediation, including gas, liquid and solid phase pollutant elimination …

Carbon monoxide (CO) is a dangerous poisonous air pollutant that highly affects humans,
plants, animals, and the environment. It is largely present in industrial flue gas, automobile …

Carbon monoxide (CO) is the most harmful pollutant in the air, causing environmental issues
and adversely affecting humans and the vegetation and then raises global warming …

Bimetallic catalysts often outperform monometallic catalysts due to changeable structural
orientation, synergistic effects, and integration of two different metal or metal oxide …

Copper has received extensive attention in the field of catalysis due to its rich natural
reserves, low cost, and superior catalytic performance. Herein, we reviewed two modification …

Abstract Nanostructured CeO 2 supported CuO–MnO 2 (CuMn/Ce) catalysts were
synthesized by wet co-impregnation method and compared with CuO/CeO 2 and MnO …

Understanding the fabrication mechanism of graphitic carbon nitride (gC 3 N 4)
nanostructures is critical for tailoring their physicochemical properties for various catalytic …

Efficient and low-cost water-gas shift (WGS) catalysts have aroused much attention for the
purification of H 2-rich syngas in the application of fuel cell. In this study, combustion of …

Catalytic oxidation of CO into CO 2 using copper–manganese–cerium (Cu–Mn–Ce) ternary
oxides pellets represents a promising strategy for CO abatement. In this work, Cu–Mn–Ce …