High-performance oxygen reduction electrocatalysis enabled by NicorePdshell nanoparticles immobilized on MoS2 nanosheets
Michail P. Minadakis, Yuta Sato, Ruben Canton-Vitoria, Kazu Suenaga, Nikos Tagmatarchis

TL;DR
A new electrocatalyst made of nickel-palladium core-shell nanoparticles on MoS2 nanosheets shows high efficiency for oxygen reduction reactions.
Contribution
The novel use of NicorePdshell nanoparticles immobilized on MoS2 nanosheets creates a high-performance, low-Pd electrocatalyst for oxygen reduction.
Findings
The nanoensemble outperformed 30% Pd/C catalyst in ORR activity.
Less than 1% Pd loading achieved superior performance.
MoS2 nanosheets provided active sites along unsaturated Mo edges.
Abstract
The development of certain energy storage devices, such as fuel cells (FCs), as well as next-generation metal–air batteries (MABs), has increased during the first 25 years of the current century, mostly due to the startlingly rapid depletion rate of fossil fuels. The above devices operate electrochemically and commonly involve the oxygen reduction reaction (ORR). ORR mainly proceeds through a 4e− pathway and suffers from both thermodynamic and kinetic limitations. Considering that the development of most next-generation electrocatalysts is still in its infancy, the use of noble metals is inevitable when the goal is to meet industry standards for commercially operating FCs in terms of the energy output while maintaining a low CO2 footprint. Palladium (Pd) appears to be the most economically viable and overall balanced choice in terms of cost/activity trade-off. However, the goal of…
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Taxonomy
TopicsElectrocatalysts for Energy Conversion · Nanoporous metals and alloys · Fuel Cells and Related Materials
