Propylene is an important building block for enormous petrochemicals including
polypropylene, propylene oxide, acrylonitrile and so forth. Propane dehydrogenation (PDH) …

Catalytic non-oxidative direct dehydrogenation of light alkanes serves as an effective
reinforcement to selectively produce the corresponding olefins, and the heterogeneous …

Conversion of propane or butanes from natural/shale gas into propene or butenes, which
are indispensable for the synthesis of commodity chemicals, is an important environmentally …

The direct formation of propene from propane is a well-established commercial process,
which on the basis of energy consumption, is environmentally preferred to the current large …

With growing demand for propylene and increasing production of propane from shale gas,
the technologies of propylene production, including direct dehydrogenation and oxidative …

Propane dehydrogenation (PDH) is a prospective benign process for the production of
propylene, but generally depends on high-price Pt and toxic Cr (VI) catalysts that often suffer …

Developing highly active electrocatalysts for overall water splitting is critical for the extensive
implementation of renewable hydrogen. In this work, interface engineering is adopted to …

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 …

Catalytic dehydrogenation of light alkanes can effectively produce olefins and hydrogen.
Even though Pt and CrOx‐based catalysts are widely applied in industry, research to …

Supported vanadium oxide is a promising catalyst in propane dehydrogenation due to its
competitive performance and low cost. Nevertheless, it remains a grand challenge to …