Catalytic oxidation is one of the most promising methods to remove VOCs. Herein, a zeolite-
confined PtMn bimetal catalyst (PtMn 0.2@ ZSM5) was synthesized using a ligand-assisted …

The elimination of propane is one of the key tasks in reducing volatile organic compounds
(VOCs) and automotive exhaust emissions. The platinum nanoparticle (NP) is a promising …

Hierarchical porous materials have gained much attention as promising heterogeneous
catalyst supports due to their high efficiency of mass transfer and high exposure of active …

Glycerol, as the major byproduct of biodiesel industry, is a cheap and green chemical
feedstock. Following the expanded production of biodiesel, the oversupply of glycerol has …

Tuning the metal–support interaction and coordination environment of single-atom catalysts
can help achieve satisfactory catalytic performance for targeted reactions. Herein, via the …

H 2 O poisoning of platinum-based catalysts for VOCs oxidation is a long-standing problem
due to H 2 O strongly competitive adsorption on active sites. In this work, it is found that the H …

Revealing the role of engineered surface oxygen vacancies in the catalytic degradation of
volatile organic compounds (VOCs) is of importance for the development of highly efficient …

This paper is a review of the main scientific progresses achieved by the authors in the field
of bioglycerol upgrading. Our research focused on the development of efficient precious …

The Pt catalysts supported on hexagonal BN (Pt/BN) are highly active and stable for
propane combustion, with the highest specific reaction rate of 92.3 μmol gPt–1 s–1 and …

Modulating the active sites in atomic level is very meaningful to optimize catalyst
performance but still very challenge. Herein, Pt catalysts loaded on different supports (ZSM …