双金属 NiWO4 作为钯的高效界面调制器,用于增强酒精电氧化作用

IF 2.7 4区 化学 Q3 CHEMISTRY, PHYSICAL
Roshima Kottayintavida, Dipannita Ganguly, Nishanth Karimbintherikkal Gopalan
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引用次数: 0

摘要

摘要 通过贵金属和过渡金属钨酸盐之间的界面工程而产生的电子耦合效应被认为是提高电催化活性的有效策略。在此,我们介绍了一种新型混合电催化剂,该催化剂由支撑在 NiWO4 纳米晶修饰碳上的钯纳米粒子组成,可用于高效的酒精电氧化反应。双金属氧化物是钯在单金属氧化物上的有效界面调节剂。在钨酸镍修饰的 Vulcan 上合成的催化剂 Pd 表现出均匀的 Pd 颗粒。与沉积在 C 催化剂上的钯相比,甲醇和乙醇电氧化的催化效率分别提高了约 10 倍(1202.48 mA/mgPd)和 6 倍(1508.24 mA/mgPd)。由于钯与钨酸镍和碳载体的强耦合作用,电子改性和表面积的改善增强了电化学性能,从而使合成催化剂具有优异的催化性能。 图表摘要
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Bimetallic NiWO4 as an Efficient Interface Modulator for Pd Towards Enhanced Alcohol Electro-oxidation

The electronic coupling effect by interfacial engineering between noble metal and transition metal tungstates is considered an effective strategy for improving electrocatalytic activity. Herein we introduced a new hybrid electrocatalyst consisting of Pd nanoparticle supported on NiWO4 nanocrystals modified carbon for efficient alcohol electro-oxidation reaction. Bimetallic oxide resulted as an efficient interface modulator for Pd over mono metallic oxides. The synthesised catalyst, Pd over nickel tungstate modified Vulcan, exhibited well-dispersed homogeneous Pd particles. The catalytic effectiveness for the electro-oxidation of methanol and ethanol was found to be enhanced around ten times (1202.48 mA/mgPd) and six times (1508.24 mA/mgPd), respectively compared to Pd deposited over C catalyst. The enhanced electrochemical property owing to electronic modification and improved surface area, by the strong coupling of Pd with nickel tungstate and carbon support conferred excellent catalytic performance for the synthesised catalyst.

Graphical Abstract

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来源期刊
Electrocatalysis
Electrocatalysis CHEMISTRY, PHYSICAL-ELECTROCHEMISTRY
CiteScore
4.80
自引率
6.50%
发文量
93
审稿时长
>12 weeks
期刊介绍: Electrocatalysis is cross-disciplinary in nature, and attracts the interest of chemists, physicists, biochemists, surface and materials scientists, and engineers. Electrocatalysis provides the unique international forum solely dedicated to the exchange of novel ideas in electrocatalysis for academic, government, and industrial researchers. Quick publication of new results, concepts, and inventions made involving Electrocatalysis stimulates scientific discoveries and breakthroughs, promotes the scientific and engineering concepts that are critical to the development of novel electrochemical technologies. Electrocatalysis publishes original submissions in the form of letters, research papers, review articles, book reviews, and educational papers. Letters are preliminary reports that communicate new and important findings. Regular research papers are complete reports of new results, and their analysis and discussion. Review articles critically and constructively examine development in areas of electrocatalysis that are of broad interest and importance. Educational papers discuss important concepts whose understanding is vital to advances in theoretical and experimental aspects of electrochemical reactions.
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