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 has been commercialized with
high selectivity for decades, the prevention of coke deposition is
still a daunting challenge. Herein, in order to provide a full coverage
of the impact of coke deposition, we critically analyze the process
of coke formation on Pt-based catalyst. First, the intrinsic nature
of coke, including composition, distribution, and effects, is presented.
The developments of kinetics model of coke growth are discussed and
compared to offer insight into mechanism of coke formation. Moreover,
the focus is put on the ways to prevent coke, which included cofeeding
reductant gas, promoter, and support engineering. The advantage and
limitation of each method is well elaborated, and the unique working
principle behind each prevention method is uncovered. The new developments
of single atom/site and confined metal cluster strategies are indicated.
The regeneration of the deactivated catalyst is also discussed, which
has a direct influence on the coke elimination and metal dispersion.
In the end, the possible optimization strategies are suggested for
the future Pt catalyst rational design. The current work provides
a comprehensive summary of the coke formation, which lays out a solid
and essential base for the further developments of Pt catalysts in
propane direct dehydrogenation.
The propane dehydrogenation under CO2 is an important catalytic route to obtain propene with a good balance between selectivity and stability. However, a precise description of catalytic role of CO2...
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