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Unlocking efficient methanol electro-oxidation in alkaline medium with non-stoichiometric 3D sphere-like Cu3Mo2O9@CoMoO4 heterostructure

材料科学 X射线光电子能谱 化学计量学 异质结 甲醇 背景(考古学) 计时安培法 化学工程 分析化学(期刊) 扫描电子显微镜 光电子学 电极 物理化学 复合材料 有机化学 循环伏安法 电化学 化学 工程类 古生物学 生物
作者
Y. Veera Manohara Reddy,Nipa Roy,J. Pundareekam Goud,G. Madhavi,Munirah D. Albaqami,Bathinapatla Sravani,Gutturu Rajasekhara Reddy,Sang Woo Joo
出处
期刊:Materials Science in Semiconductor Processing [Elsevier BV]
卷期号:174: 108213-108213 被引量:8
标识
DOI:10.1016/j.mssp.2024.108213
摘要

In order to unlock the full potential of direct methanol fuel cells (DMFCs), there is a pressing need for the development of cost-effective catalysts that don't rely on precious metals. Within this context, we have successfully synthesized a non-stoichiometric three-dimensional (3D) sphere-like Cu3Mo2O9@CoMoO4 heterostructure using a straightforward two-step hydrothermal process. A range of analytical techniques was utilized to explore the physical and chemical properties of this Cu3Mo2O9@CoMoO4 in comparison to their constituents' parts, one-dimensional (1D) rod-like Cu3Mo2O9 and CoMoO4 microstructures. X-ray photoelectron spectroscopy (XPS) was employed for the quantitative assessment of the non-stoichiometric composition of elements such as Cu, Co, and Mo within the heterostructure. This outcome was additionally corroborated by data obtained through analysis using field emission scanning electron microscopy (FESEM) with energy-dispersive X-ray spectroscopy (EDS). The heterostructure showed highly porous characteristics and displayed a large surface area of 42.54 m2 g−1 compared to Cu3Mo2O9 and CoMoO4. This configuration yields a notably preeminent current response for methanol electro-oxidation (MOR), reaching 202.8 mA cm−2 at a scan rate of 50 mV s−1 within the voltage range of 0.0–0.7 V (vs. Hg/HgO). In comparison, both Cu3Mo2O9 and CoMoO4 exhibit lower methanol electro-oxidation currents of 154.9 mA cm−2 and 120 mA cm−2, respectively. After examination by chronoamperometry for 10 h, the Cu3Mo2O9@CoMoO4 exhibited good stability performance. This research illustrates that the synergistic effects between Cu3Mo2O9 and CoMoO4 within Cu3Mo2O9@CoMoO4 heterostructure can significantly boost electrocatalytic capabilities. This enhancement opens extensive avenues for advancing cost-effective electrocatalyst materials for the broader advancement of efficient MOR processes.

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