Litcius/Paper detail

Effect of high aspect ratio additives on microstructural and mass transport properties of the microporous layer in a proton exchange membrane fuel cell

Shirin Mehrazi, Mrittunjoy Sarker, Po‐Ya Abel Chuang

2023Journal of Power Sources14 citationsDOIOpen Access PDF

Abstract

Tuning up transport properties of the microporous layer is an effective way to enhance mass transport in a proton exchange membrane fuel cell. The incorporation of non-spherical conductive additives in the conventional microporous layer can modify its pore structure. In this study, 5, 20, and 50 wt.% of two high aspect ratio additives, multiwall carbon nanotube and graphene nanoplatelet, are mixed with the acetylene-black carbon to systematically study their impact on ink and the final diffusion media properties. Using a bottom-up approach, the rheological properties of the ink are correlated to the mass transport resistance in the diffusion media. The ink with additives exhibits rheological properties of a less compact microstructure with large agglomerates. Whereas, a more compact agglomerated network is observed from the ink with pure acetylene black carbon nanoparticles. Graphene nanoplatelet has a dominating effect on the surface quality of the microporous layers due to its two-dimensional structure. The test results show that the microstructure formed by the synergy of acetylene black and additives can enhance ohmic and mass transport performance. 20 wt.% of the additive loading is found to be optimal and multiwall carbon nanotube shows the best fuel cell performance.

Topics & Concepts

Microporous materialCarbon blackMaterials scienceMicrostructureAgglomerateCarbon nanotubeChemical engineeringProton exchange membrane fuel cellCarbon fibersLayer (electronics)Composite materialNatural rubberComposite numberFuel cellsEngineeringFuel Cells and Related MaterialsElectrocatalysts for Energy ConversionAdvanced Battery Technologies Research