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W4307959127 endingPage "139945" @default.
W4307959127 startingPage "139945" @default.
W4307959127 abstract "Local oxygen transport resistance is increased due to the blocked and intermittent local oxygen pathway caused by Co 2+ contamination in ionomer and a significant performance loss in high current density is observed. • Co 2+ contamination compacts SO 3 - in ionomer and deteriorates the ionomer aggregation. • Ionomer modulus increases and water content reduces as Co 2+ increases. • Co 2+ contamination in ionomer leads to blocked and intermittent local oxygen pathway. • Local oxygen transport resistance increases as degree of Co 2+ contamination increases. Pt alloy electrocatalysts (e.g., Pt 3 Co) for oxygen reduction reaction (ORR) in proton exchange membrane fuel cells (PEMFCs) have attracted a great deal of interest from worldwide researchers in past decades, due to the excellent ORR activity and cost-effective properties. However, the long period operation would yield sever dissolution of the non-precious metal which effects the ionomer microstructure, thus leading to significantly decreased ORR activity of catalyst and aggravated of the oxygen transport resistance in cathode catalyst layers (CCLs), especially the local oxygen transport resistance caused by the ultrathin ionomer film covering on catalyst surface. Herein, in this paper, the effects of Co 2+ contamination on structure of ionomer films and the corresponding local oxygen transport behavior in CCLs are explored via physicochemical characterizations and molecular dynamics (MD) simulations, limiting current method, as well as fuel cell performance measurement. It is found that Co 2+ contamination reduces water content and increases the modulus of the ultrathin ionomer film, while reducing the distance between the sulfonic acid groups and increasing the aggregation size of the ionomer, which is related to the volume of hydrophilic domains. Additionally, the electrochemical measurement results demonstrate that as the degree of Co 2+ contamination increases from 0 to 85%, the local oxygen transport resistance increases from 27.74 s cm -1 to 42.43 s cm -1 , and the peak power density of fuel cell reduces from 510 mW cm −2 to 453 mW cm −2 . The reason behind lies on that contaminated Co 2+ tends to connect with sulfonate, then suppress the ionomer mobility and dislocate the local oxygen transport channels." @default.
W4307959127 created "2022-11-06" @default.
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W4307959127 date "2023-02-01" @default.
W4307959127 modified "2023-10-13" @default.
W4307959127 title "New insight into the effect of Co2+ contamination on local oxygen transport in PEMFCs" @default.
W4307959127 cites W1964993245 @default.
W4307959127 cites W1966075844 @default.
W4307959127 cites W1971695521 @default.
W4307959127 cites W1972103123 @default.
W4307959127 cites W1981628175 @default.
W4307959127 cites W1985618996 @default.
W4307959127 cites W1985679007 @default.
W4307959127 cites W1990201792 @default.
W4307959127 cites W1994599417 @default.
W4307959127 cites W2000755121 @default.
W4307959127 cites W2008701258 @default.
W4307959127 cites W2010937881 @default.
W4307959127 cites W2013436076 @default.
W4307959127 cites W2017367682 @default.
W4307959127 cites W2022299938 @default.
W4307959127 cites W2024257820 @default.
W4307959127 cites W2035100871 @default.
W4307959127 cites W2045715146 @default.
W4307959127 cites W2055992216 @default.
W4307959127 cites W2056734148 @default.
W4307959127 cites W2056773921 @default.
W4307959127 cites W2058112906 @default.
W4307959127 cites W2058790123 @default.
W4307959127 cites W2069747883 @default.
W4307959127 cites W2076058822 @default.
W4307959127 cites W2085199916 @default.
W4307959127 cites W2087933701 @default.
W4307959127 cites W2161672842 @default.
W4307959127 cites W2162955253 @default.
W4307959127 cites W2165548218 @default.
W4307959127 cites W2228269948 @default.
W4307959127 cites W2283745581 @default.
W4307959127 cites W2296143349 @default.
W4307959127 cites W2324425607 @default.
W4307959127 cites W2331246418 @default.
W4307959127 cites W2345087131 @default.
W4307959127 cites W2372806878 @default.
W4307959127 cites W2402313048 @default.
W4307959127 cites W2533669921 @default.
W4307959127 cites W2580954066 @default.
W4307959127 cites W2613330826 @default.
W4307959127 cites W2736983143 @default.
W4307959127 cites W2751803069 @default.
W4307959127 cites W2767929500 @default.
W4307959127 cites W2789693896 @default.
W4307959127 cites W2793707734 @default.
W4307959127 cites W2845116716 @default.
W4307959127 cites W2890238671 @default.
W4307959127 cites W2958290053 @default.
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W4307959127 cites W3129511453 @default.
W4307959127 cites W3207769564 @default.
W4307959127 cites W4226035641 @default.
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W4307959127 doi "https://doi.org/10.1016/j.cej.2022.139945" @default.
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