• On the Interface Electron Transport Problem of Highly Active IrOx Catalysts
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  • 2025-06-18 11:30:14|
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ㅇ [Title]        On the Interface Electron Transport Problem of Highly Active IrOx Catalysts


ㅇ [Journal]   Energy Environ. Sci., 2025,18, 5577-5585

 
                                                                                                                                                                                                        
 [Author]    Jeesoo Park, Dong Wook Lee, Jonghyun Hyun, Hojin Lee, Euntaek Oh, Kyunghwa Seok, Gisu Doo* and Hee-Tak Kim*

 

 [Abstrct] 
  
Electron transport resistance at the interface between the catalyst layer (CL) and the porous transport layer (PTL) in the PEMWE anode has long been poorly understood despite its significant

impact on performance. In this study, we demonstrate that highly active IrOx nanocatalysts encounter electron transport problems at the interface with the native oxide (TiOx) on the Ti PTL,

leading to poor single-cell performance. This issue is attributed to the pinch-off effect caused by the ionomer, which withdraws electrons from TiOx at the interface, creating a severe electron

depletion layer. The problem is further exacerbated at the TiOx interface of ultrafine IrOx nanocatalysts, as small-sized catalyst particles form dense CL structures, amplifying the influence of the

expanded ionomer/TiOx interface on the entire region. By manipulating the particle size of the IrOx catalyst, we demonstrate this effect at the single-cell level and further validate it through

COMSOL Multiphysics simulations. Our findings reveal that IrOx catalysts larger than 20 nm are necessary to mitigate the significant interference caused by the ionomer at the TiOx interface. This

work provides critical insights into optimizing catalyst particle dimensions to overcome the pinch-off effect and enhance performance.







 










 
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