Myung Su Lim scite author profile

An earth-abundant and feasible air cathode electrocatalyst is of importance for energy devices including fuel cells and metal−air batteries. Herein, hierarchically porous S,N-co-doped carbon materials derived from bamboo are prepared via pyrolysis of bamboo and thiourea to function as oxygen reduction reaction electrocatalysts. Due to their controlled mesopore ratio and increased effective dopant amount, the S,N-co-doped bamboo carbons (SNBCs) present half-wave potentials and stabilities comparable to those of commercial Pt/C catalysts. As cathode materials for anion exchange membrane fuel cells and Zn−air batteries, SNBCs exhibit high performances, attributed to their intrinsic activities as well as well-developed secondary pore structure in the catalyst layer. Thus, we demonstrate the viability of biomass-derived catalysts for practical energy applications.

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Enhancement of mass transport in fuel cells using three-dimensional graphene foam as flow field

Park

Lim

Kim

et al. 2018

Electrochimica Acta

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Graphitic carbon nitride-carbon nanofiber as oxygen catalyst in anion-exchange membrane water electrolyzer and rechargeable metal–air cells

Park

Kim

Lim

et al. 2018

Applied Catalysis B: Environmental

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Gas diffusion layer/flow-field unified membrane-electrode assembly in fuel cell using graphene foam

Park

Lim

et al. 2019

Electrochimica Acta

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Myung Su Lim

High-performance anion-exchange membrane water electrolysis

Biomass-Derived Air Cathode Materials: Pore-Controlled S,N-Co-doped Carbon for Fuel Cells and Metal–Air Batteries

Enhancement of mass transport in fuel cells using three-dimensional graphene foam as flow field

Graphitic carbon nitride-carbon nanofiber as oxygen catalyst in anion-exchange membrane water electrolyzer and rechargeable metal–air cells

Gas diffusion layer/flow-field unified membrane-electrode assembly in fuel cell using graphene foam

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