氢
制氢
糠醛
材料科学
氢燃料
化学
催化作用
有机化学
作者
Lu Zhang,Ling‐Yi Kong,Xin Zhang,Xiao‐Cheng Zhou,Jiu‐Ju Feng,Ai‐Jun Wang
出处
期刊:Small
[Wiley]
日期:2024-06-05
标识
DOI:10.1002/smll.202402981
摘要
Abstract To address the imperative challenge of producing hydrogen in a low‐energy consumption electrocatalytic system, this study emphasizes the utilization of thermodynamically favorable biomass oxidation for achieving energy‐efficient hydrogen generation. This research integrates ultralow PtO 2 ‐loaded flower‐like nanosheets (denoted as PtO 2 @Cu 2 O/Cu FNs) with Cu 0 /Cu + pairs and Pt─O bonds, thereby yielding substantial enhancement in both hydrogen evolution reaction (HER, −0.042 V RHE at 10 mA cm −2 ) and furfural oxidation reaction (FFOR, 0.09 V RHE at 10 mA cm −2 ). As validated by DFT calculations, the dual built‐in electric field (BIEF) is elucidated as the driving force behind the enhanced activities, in which Pt─O bonds expedite the HER, while Cu + /Cu 0 promotes low‐potential FFOR. By coupling the FFOR and HER together, the resulting bipolar‐hydrogen production system requires a low power input (0.5072 kWh per m 3 ) for producing H 2 . The system can generate bipolar hydrogen and high value‐added furoic acid, significantly enhancing hydrogen production efficiency and concurrently mitigating energy consumption.
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