Catalytic pyrolysis of biomass is a promising method to convert biomass feedstock into high-
value products. However, coke formation on catalysts causes the severe deactivation and …

Dehydrogenation of propane (PDH) technology is one of the most promising on-purpose
technologies to solve supply-demand unbalance of propylene. The industrial catalysts for …

Pt-based catalysts are widely used in propane dehydrogenation to meet the dramatically
increased demand of propylene from an on-purpose catalytic process. Although the process …

Over the past two decades percolation theory has been used to explain and model a wide
variety of phenomena that are of industrial and scientific importance. Examples include …

Extension and clustering of polycyclic aromatic hydrocarbons (PAHs) are key mechanistic
steps for coking and deactivation in catalysis reactions. However, no unambiguous …

Propane dehydrogenation (PDH) is one of the most effective methods to produce propylene.
But the industrial Pt‐based catalysts often suffer from short‐term stability under the high …

Platinum‐based supported intermetallic alloys (IMAs) demonstrate exceptional performance
in catalytic propane dehydrogenation (PDH) primarily because of their remarkable …

State-of-the-art developments in oxidation activity and deactivation mechanisms of the
diesel oxidation catalyst (DOC) are reviewed. The effect of temperature, hydrocarbons, CO …

With the fast depletion of oil-based feedstocks and the huge abundance of underutilized
Shale gas and natural gas, direct dehydrogenation of alkanes (DDH) is extensively explored …

In this work, a 3D pore network model (PNM) is introduced for modeling reaction-diffusion
phenomena, with and without coupled heat transfer, in a spherical porous catalyst particle …