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Confining rhodium nanocrystals into polyaniline nanorod-embedded MXene nanoarchitectures enables efficient methanol electrooxidation

Author Affiliations
Hohai University, Anhui University of Technology, Southeast University
Published InJournal of Colloid and Interface Science
Year2025
Citations16

Abstract

Although metallic rhodium (Rh) is regarded as a promising platinum (Pt)-alternative electrode used in direct methanol fuel cell technology, its electrocatalytic ability still needs to be substantially improved before large-scale commercial applications. Herein, we report a bottom-up design strategy to confine ultrafine Rh nanoparticles into polyaniline (PANI) nanorod-embedded Ti3C2Tx MXene nanoarchitectures through a convenient co-assembly process. The incorporation of PANI nanorods effectively separates the neighbouring MXene nanolayers and provides plentiful N species for the immobilization of Rh nanoparticles, while the presence of MXene is able to optimize the intrinsic Rh electronic structure and guarantee a high charge-transfer efficiency. As a result, the newly-developed ternary electrocatalyst expresses superior methanol oxidation properties with a large electrochemical active surface area of 92.0 m2…
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