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钯-二氧化铈/碳洋葱中的界面电子相互作用决定了碱性电解质中高效的乙醇氧化电催化反应。

Interfacial Electronic Interactions within the Pd-CeO/Carbon Onions Define the Efficient Electrocatalytic Ethanol Oxidation Reaction in Alkaline Electrolytes.

作者信息

Ogada Jimodo J, Ehirim Tobechukwu J, Ipadeola Adewale K, Haruna Aderemi B, Mwonga Patrick V, Abdullah Aboubakr M, Yang Xiao-Yu, Eid Kamel, Wamwangi Daniel M, Ozoemena Kenneth I

机构信息

School of Chemistry, Molecular Sciences Institute, University of the Witwatersrand, Johannesburg 2050, South Africa.

School of Physics, University of the Witwatersrand, Johannesburg 2050, South Africa.

出版信息

ACS Omega. 2024 Feb 9;9(7):7439-7451. doi: 10.1021/acsomega.3c04427. eCollection 2024 Feb 20.

DOI:10.1021/acsomega.3c04427
PMID:38405481
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10882676/
Abstract

Porous Pd-based electrocatalysts are promising materials for alkaline direct ethanol fuel cells (ADEFCs) and ethanol sensors in the development of renewable energy and point-of-contact ethanol sensor test kits for drunk drivers. However, experimental and theoretical investigations of the interfacial interaction among Pd nanocrystals on supports (i.e., carbon black (CB), onion-like carbon (OLC), and CeO/OLC) toward ADEFC and ethanol sensors are not yet reported. This is based on the preparation of Pd-CeO/OLC nanocrystals by the sol-gel and impregnation methods. Evidently, the porous Pd-CeO/OLC significantly increased membrane-free micro-3D-printed ADEFC performance with a high peak power density ( = 27.15 mW cm) that is 1.38- and 7.58-times those of Pd/OLC (19.72 mW cm) and Pd/CB (3.59 mW cm), besides its excellent stability for 48 h. This is due to the excellent interfacial interaction among Pd, CeO, and OLC, evidenced by density functional theory (DFT) simulations that showed a modulated Pd d-band center and facile active oxygenated species formation by the CeO needed for ethanol fuel cells. Similarly, Pd-CeO/OLC gives excellent sensitivity (0.00024 mA mM) and limit of detection (LoD = 8.7 mM) for ethanol sensing and satisfactory recoveries (89-108%) in commercial alcoholic beverages (i.e., human serum, Amstel beer, and Nederberg Wine). This study shows the excellent possibility of utilizing Pd-CeO/OLC for future applications in fuel cells and alcohol sensors.

摘要

在可再生能源以及用于酒驾者的接触式乙醇传感器测试套件的开发中,多孔钯基电催化剂是用于碱性直接乙醇燃料电池(ADEFCs)和乙醇传感器的有前景的材料。然而,尚未有关于载体(即炭黑(CB)、洋葱状碳(OLC)和CeO/OLC)上钯纳米晶体之间的界面相互作用对ADEFC和乙醇传感器影响的实验和理论研究报道。这是基于通过溶胶 - 凝胶法和浸渍法制备钯 - CeO/OLC纳米晶体。显然,多孔钯 - CeO/OLC显著提高了无膜微3D打印ADEFC的性能,其具有高达27.15 mW/cm²的峰值功率密度,分别是钯/OLC(19.72 mW/cm²)和钯/CB(3.59 mW/cm²)的1.38倍和7.58倍,此外还具有48小时的出色稳定性。这是由于钯、CeO和OLC之间具有出色的界面相互作用,密度泛函理论(DFT)模拟证明了这一点,该模拟显示了调制的钯d带中心以及乙醇燃料电池所需的CeO促进活性氧化物种的形成。同样,钯 - CeO/OLC在乙醇传感方面具有出色的灵敏度(0.00024 mA/mM)和检测限(LoD = 8.7 mM),并且在商业酒精饮料(即人血清、喜力啤酒和 Nederberg 葡萄酒)中具有令人满意的回收率(89 - 108%)。这项研究表明了在未来燃料电池和酒精传感器应用中利用钯 - CeO/OLC的极佳可能性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9600/10882676/5701b3c90fd2/ao3c04427_0010.jpg
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