Abstract
AbstractThe electrocatalytic ethane dehydrogenation to ethylene reaction (EDH) offers an alternative to the traditional steam cracking method for sustainable ethylene production but suffers sluggish kinetics due to the inert C−H bonds. Herein, a novel strategy is proposed for designing efficient double‐atom catalysts (DACs) via first principle calculations. We examined the C−H activation of methane by single‐atom catalysts (SACs) and constructed activity maps using activation energy as the activity descriptor, where methane is the simplest probe molecule to establish trends in C−H activation. Particularly, due to the strong d‐σ* coupling between ethane and Rh atoms, Rh2@V2CO2 presents excellent EDH performance with particularly low energy barriers (0.64 eV for the C2H6* to C2H5* step and 0.63 eV for the C2H5* to C2H4* step). This work not only demonstrates the possibility of developing novel DACs for EDH but also provides a new strategy for designing efficient DACs.
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