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Heterostructure of Semiconductors on Self-Supported Cuprous Phosphide Nanowires for Enhanced Overall Water Splitting

Xiao Xu, Ying He, Weifeng Huang, Amin Cao, Longtian Kang, Jingjing Liu

2022ACS Applied Materials & Interfaces11 citationsDOI

Abstract

Rational design, controllable synthesis, and an in-depth mechanism study of Cu-based bifunctional semiconductor heterostructures toward overall water splitting (OWS) are imperative but still face challenges. Herein, n-type iron oxide and p-type nickel phosphide and cobalt phosphide are respectively coupled with p-type cuprous phosphide nanowires on Cu foams via a general growth-phosphorization strategy. These self-supported semiconductor heterojunctions with different built-in potentials (EBI) are used as binder-free electrodes for OWS and exhibit significantly improved electrocatalytic activities compared to their counterparts. Among them, the heterostructure with the largest EBI of 1.57 V attains the smallest overpotential of 97 mV at 10 mA cm–2 for the hydrogen evolution reaction and 243 mV at 50 mA cm–2 for the oxygen evolution reaction in 1 M KOH. The corresponding two-electrode electrolyzer requires a cell voltage of 1.685 V at 50 mA cm–2 and shows admirable long-term stability at 100 mA cm–2 with a Faraday efficiency of around 98%. These promoted electrocatalytic performances originate from the enhanced active site, accelerated charge transfer, enlarged electrochemical active surface area, and synergy between different components at the heterointerface. This work represents a promising avenue to construct cost-efficient semiconductor heterostructures as bifunctional electrocatalysts applied to the sustainable energy industry.

Topics & Concepts

PhosphideMaterials scienceWater splittingHeterojunctionOverpotentialSemiconductorNanowireOxygen evolutionElectrocatalystElectrochemistryChemical engineeringNanotechnologyOptoelectronicsElectrodeCatalysisMetallurgyPhotocatalysisNickelChemistryPhysical chemistryBiochemistryEngineeringElectrocatalysts for Energy ConversionAdvanced Photocatalysis TechniquesCopper-based nanomaterials and applications
Heterostructure of Semiconductors on Self-Supported Cuprous Phosphide Nanowires for Enhanced Overall Water Splitting | Litcius