Platinum-Ruthenium(PtRu)-based materials are considered the"holy grail"of electrocatalysts for methanol oxidation reaction(MOR)in the fuel cells technique.However,to the best of our knowledge,the exhaustive review report on the advance of PtRu materi-als for methanol oxidation is rarely summarized for the recent novel achievements.Herein,we summarize and discuss the latest progress of PtRu-based catalysts in MOR.The reac-tion mechanism of MOR is firstly introduced,and the promotion mechanism is revealed by the relevant activity descriptor,the in-situ spectroscopic analysis and the theoretical calcu-lation.Subsequently,some advanced regulation strategies of PtRu-based catalysts are concluded,including support engineering,morphology design and surface interface regula-tion.Finally,the challenges and opportunities to improve the MOR performance of PtRu-based electrocatalysts are prospected to further promote the widespread application of PtRu-based catalysts in electrocatalytic systems.It is concluded that many efforts are still required to decipher the atomic scale structure-activity relationship and the structural changes of atoms and electrons in the reaction process by advanced strategies and char-acterization methods.Hopefully,this review can be helpful for novel PtRu-based catalyst development and understanding their corre-lation to the structure and performance of energy-relevant electrocatalysis.

Wei Qiao;Xingyu Huang;Ligang Feng

School of Chemistry and Chemical Engineering,Yangzhou University,Yangzhou 225002,China

结构化学

[1]Wei Qiao;Xingyu Huang;Ligang Feng-.Advances of PtRu-Based Electrocatalysts for Methanol Oxidation)[J].结构化学,2022(07):16-34

Advances,PtRu,Based,Electrocatalysts,Methanol,Oxidation,Platinum,Ruthenium,materials,considered,holy,grail,electrocatalysts,methanol,oxidation,reaction,MOR,fuel,cells,technique,However,best,our,knowledge,exhaustive,review,report,rarely,summarized,recent,novel,achievements,Herein,discuss,latest,progress,mechanism,firstly,introduced,promotion,revealed,by,relevant,activity,descriptor,situ,spectroscopic,analysis,theoretical,calcu,Subsequently,some,advanced,regulation,strategies,concluded,including,support,engineering,morphology,design,surface,interface,Finally,challenges,opportunities,improve,performance,prospected,further,promote,widespread,application,electrocatalytic,systems,It,that,many,efforts,still,required,decipher,atomic,scale,structure,relationship,structural,changes,atoms,electrons,process,char,acterization,methods,Hopefully,this,can,helpful,development,understanding,their,corre,energy,electrocatalysis

0.566184