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Abstract 2D transition metal nitrides, especially nitrogen‐rich tungsten nitrides (W x N y , y > x ), such as W 3 N 4 and W 2 N 3 , have a great potential for the hydrogen evolution reaction (HER) since the catalytic activity is largely enhanced by the abundant WN bonding. However, the rational synthesis of 2D nitrogen‐rich tungsten nitrides is challenging due to the large formation energy of WN bonding. Herein, ultrathin 2D hexagonal‐W 2 N 3 ( h ‐W 2 N 3 ) flakes are synthesized at atmospheric pressure via a salt‐templated method. The formation energy of h ‐W 2 N 3 can be dramatically decreased owing to the strong interaction and domain matching epitaxy between KCl and h ‐W 2 N 3 . 2D h ‐W 2 N 3 demonstrates an excellent catalytic activity for cathodic HER with an onset potential of −30.8 mV as well as an overpotential of −98.2 mV for 10 mA cm −2 .
Yu et al. (Wed,) studied this question.
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