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Interface modulation of nickel phosphide (Ni2P) to produce an optimal catalytic activation barrier has been considered a promising approach to enhance the hydrogen production activity via water splitting. Herein, heteronuclei‐mediated in situ growth of hollow Ni2P nanospheres on a surface defect‐engineered titanium carbide (Ti3C2Tx) MXene showing high electrochemical activity for the hydrogen evolution...
Hydrogen Evolution
In article number 2204797, Hyeyoung Shin, Jun Young Lee, Jung Kyu Kim, and co‐workers discover heteronuclei‐mediated in situ growth of Ni2P nanospheres on a defect‐engineered Ti3C2Tx MXene induces interfacial strain which leads to charge redistribution and charge transfer, boosting the electrochemical hydrogen evolution reaction.
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