Honghong Liu scite author profile

The electrocatalytic nitrogen reduction reaction (NRR) to ammonia (NH3) is a highly desirable yet challenging objective because of the competing hydrogen evolution reaction (HER). Herein, a novel electrocatalyst of Sn‐doped black phosphorene (Sn‐BPene) is demonstrated with dramatically improved selectivity for the NRR. The Sn that is added acts as a sacrificial species for the HER to protect the NRR active sites on black phosphorene (BPene). The Sn‐BPene achieves a Faraday efficiency of up to 36.51% and a prominent NH3 yield rate of 26.98 µg h–1 mgcat–1 at a relatively low overpotential. Density functional theory calculations prove that the adsorption sites of H2O and N2 are separated after doping with Sn, with H2O adsorbing preferentially onto the Sn sites and N2 onto the NRR active sites of BPene, leading to high selectivity.

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The preparation of holey phosphorene by electrochemical assistance

Liu

Lian

Zhang

et al. 2019

Electrochemistry Communications

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Facile synthesis of an air-stable 3D reduced graphene oxide-phosphorene composite by sonication

Liu

Lian

Tang

et al. 2019

Applied Surface Science

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Red phosphorus encapsulated in porous carbon derived from cigarette filter solid waste as a promising anode material for lithium-ion batteries

Wang

Lian

Wang

et al. 2018

Ionics

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A facile and mild route to synthesize ultralight and flexible 3D functionalized graphene

Lian

Liu

et al. 2017

J Porous Mater

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Honghong Liu

Sn‐Doped Black Phosphorene for Enhancing the Selectivity of Nitrogen Electroreduction to Ammonia

The preparation of holey phosphorene by electrochemical assistance

Facile synthesis of an air-stable 3D reduced graphene oxide-phosphorene composite by sonication

Red phosphorus encapsulated in porous carbon derived from cigarette filter solid waste as a promising anode material for lithium-ion batteries

A facile and mild route to synthesize ultralight and flexible 3D functionalized graphene

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