Biomass‐Derived Catalytically Active Carbon Materials for the Air Electrode of Zn‐Air Batteries

Abstract: Given the growing environmental and energy problems, developing clean, renewable electrochemical energy storage devices is of great interest. Zn–air batteries (ZABs) have broad prospects in energy storage because of their high specific capacity and environmental friendliness. The reason that hinders the large‐scale application of ZABs is the lack of cheap air materials and efficient and stable catalysts to catalyze air electrodes. Due to the abundant biomass resources, self‐doped heteroatoms, and unique pore s… Show more

“…36 The layered porous structure of carbon inherited from natural wood is conducive to the construction of three-phase interfaces and ion transport channel. 37 Based on the unique physical and chemical properties of natural wood, wood can be modified to become an ORR catalyst. 38 N-doped carbon materials are seen as an efficient and simple strategy to increase the ORR activity.…”

Electric field-induced phosphorization to prepare CoP@Biochar composites for efficient bifunctional oxygen electrocatalysis

“…36 The layered porous structure of carbon inherited from natural wood is conducive to the construction of three-phase interfaces and ion transport channel. 37 Based on the unique physical and chemical properties of natural wood, wood can be modified to become an ORR catalyst. 38 N-doped carbon materials are seen as an efficient and simple strategy to increase the ORR activity.…”

Electric field-induced phosphorization to prepare CoP@Biochar composites for efficient bifunctional oxygen electrocatalysis

Promoting Electrocatalytic Oxygen Reactions Using Advanced Heterostructures for Rechargeable Zinc–Air Battery Applications