Pyrolysis‐Free Synthesis of Synergistic Single‐Atom/Nanocluster Electrocatalysts for Hydrogen Evolution
Zhaodi Wang, Ye Han, Yingying Wang, Shuang‐Quan Zang, Peng Peng, Peng Peng
Abstract
Abstract Constructing catalysts that simultaneously contain single atom/metal nanocluster active sites is a promising strategy to enhance the original catalytic behavior and accelerate the catalysis involving multi‐electron reactions or multi‐intermediates. Herein, the pyrolysis‐free synthetic method is developed to integrate single atoms and nanoclusters towards highly satisfactory catalytic performances for both acidic and alkaline hydrogen electrocatalysis. The controllable pyrolysis‐free strategy allows the precise modulation of the active centers, realizing the optimization of the adsorption energy and the regulation of the synergistic active components. Specially, the as‐prepared catalysts with hybrid single‐atom/nanocluster sites exhibited superior catalytic activities for hydrogen evolution in both acidic and alkaline media with low over‐potentials at −10 mA cm −2 of 25 mV and 8.6 mV, respectively, combining with outstanding durability towards high current density and methanol poisoning. This work developed a universal synthetic strategy for the single atom/nanocluster synergy systems and addressed the superiority of hybrid single‐atom/nanocluster sites.