S-Species-Stimulated Deep Reconstruction of Ultra-Homogeneous CuS Nanosheets for Efficient HMF Electrooxidation
Yongzhi Xiong, Mengyuan Qiu, Yihan Wang, Qi Liu, Dong Ouyang, Yajun Liu, Changzhou Chen, Jianchun Jiang, Mengmeng Fan, Kui Wang

TL;DR
This paper introduces a new method to create efficient copper sulfide nanosheets for converting biomass into valuable chemicals.
Contribution
A coordination-pyrolysis strategy is proposed to fabricate CuS nanosheets with enhanced HMF oxidation performance.
Findings
The optimized CuS@NC achieved a current density of 335 mA cm−2 at 1.50 V.
The method shows a 628% improvement over the control catalyst.
S species trigger deep reconstruction and promote bond cleavage in HMF.
Abstract
Efficient utilization of renewable biomass resources is one of the feasible approaches to address the massive consumption of fossil fuels accompanying severe resource crises and environmental pollution. Currently, 2,5-furandicarboxylic acid derived from the oxidation of biomass-based 5-hydroxymethylfurfural (HMF) is a valuable chemical as the alternative to the fossil resource-derived terephthalic acid. However, the development of high-performance and low-cost Cu-based electrocatalysts for the efficient HMF oxidation reaction (HMFOR) remains an enormous challenge. Guided by our theoretical prediction, we proposed a coordination-pyrolysis strategy to fabricate highly dispersed copper sulfide (CuS) nanosheets supported on N-doped porous carbon precatalyst (CuS@NC). The covalent S species trigger the deep reconstruction of CuS nanosheets, and the in situ generated SO42− not only promotes…
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Taxonomy
TopicsElectrocatalysts for Energy Conversion · Chalcogenide Semiconductor Thin Films · Quantum Dots Synthesis And Properties
