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Strengthening the Stability of the Reconstructed NiOOH Phase for 5-Hydroxymethylfurfural Oxidation

Yifei Huang, Xuliang Pang, Jianguo Cui, Zhenzhen Huang, Guanhua Wang, Huaiquan Zhao, Hong‐Ye Bai, Weiqiang Fan

2023Inorganic Chemistry49 citationsDOIOpen Access PDF

Abstract

Electrochemical oxidation of biomass-derived 5-hydroxymethylfurfural (HMF) is a promising approach to produce high-value chemicals such as 2,5-furandicarboxylic acid (FDCA). However, the undesirable stability of catalysts commonly limits its potential application value. In this work, NiOOH derived from Ni(OH) 2 was determined as the main catalytic site for HMF oxidation, but the collapse of Ni(OH) 2 caused severe instability during the electrocatalytic process because of the crystal structure mismatch between NiOOH and Ni(OH) 2 . The implantation of Ce in Ni(OH) 2 (Ce-Ni(OH) 2 ) was successfully realized to address the stability issue of bare Ni(OH) 2, since the larger ion radius of Ce could increase the Ni–O bond length and d -spacing. As a result, the activity of 14%Ce-Ni(OH) 2 has not obviously decayed after the 50 cyclic voltammetry (CV)-cycle test. HMF conversion is close to 100%, and the Faraday efficiency (FE) reaches 86.6% at the potential of 0.45 V vs Ag/AgCl. This study provides a new strategy to design stable catalysts for the conversion of biomass derivatives.

Topics & Concepts

Chemistry5-hydroxymethylfurfuralPhase (matter)Stability (learning theory)Chemical engineeringOrganic chemistryCatalysisMachine learningComputer scienceEngineeringOxidative Organic Chemistry ReactionsPolyoxometalates: Synthesis and ApplicationsChemical Synthesis and Reactions
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