Laser-induced graphene as the microporous layer in proton exchange membrane fuel cells
Applied Surface Science(2020)
Abstract
•Cost-effective and rapid laser manufacturing method of graphene-based MPLs.•Tandem surface patterning by laser contouring for controlling hydrophobicity.•PTFE binder-free, all-graphene MPLs overcoming water management issues.•Improved performance due to high conductivity, porosity, and water elimination.•Tailored material properties and chemical composition, high scalability.
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Key words
Laser-induced graphene,Laser patterning,Laser pyrolysis,Low-temperature decal transfer,Microporous layer,PEM fuel cell
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