Fangyao Zhou scite author profile

Electroreduction of CO 2 into value-added products is an effective approach to remit the environmental and energy issues. In this study, a hierarchical, selfsupported, and atomistic catalyst was successfully synthesized based on the solidstate diffusion strategy. This catalyst can be directly used as a binder-free electrode and exhibits superb catalytic CO 2 electroreduction performance. Directly synthesized by bulk metal foil, this catalyst is scalable to meet the industrial demand.

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Thermal Emitting Strategy to Synthesize Atomically Dispersed Pt Metal Sites from Bulk Pt Metal

Chen

et al. 2019

J. Am. Chem. Soc.

328

202

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Developing a facile route to access active and well-defined single atom sites catalysts has been a major area of focus for single atoms catalysts (SACs). Herein, we demonstrate a simple approach to generate atomically dispersed platinum via a thermal emitting method using bulk Pt metal as a precursor, significantly simplifying synthesis routes and minimizing synthesis costs. The ammonia produced by pyrolysis of Dicyandiamide can coordinate with platinum atoms by strong coordination effect. Then, the volatile Pt(NH3) x can be anchored onto the surface of defective graphene. The as-prepared Pt SAs/DG exhibits high activity for the electrochemical hydrogen evolution reaction and selective oxidation of various organosilanes. This viable thermal emitting strategy can also be applied to other single metal atoms, for example, gold and palladium. Our findings provide an enabling and versatile platform for facile accessing SACs toward many industrial important reactions.

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Fangyao Zhou

Direct transformation of bulk copper into copper single sites via emitting and trapping of atoms

Solid-Diffusion Synthesis of Single-Atom Catalysts Directly from Bulk Metal for Efficient CO2 Reduction

Thermal Emitting Strategy to Synthesize Atomically Dispersed Pt Metal Sites from Bulk Pt Metal

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