Advanced sodium-ion battery anode material prepared by regulating an environmentally friendly hard carbon precursor through bio‑based molecular coupling
Key Points
This research aims to develop an advanced anode material for sodium-ion batteries using environmentally friendly processes.
Utilized naringenin and lignin coupling for precursor development.
Regulated pyrolysis temperature to optimize hard carbon characteristics.
Employed a bio-based phenolic resin in the anode material preparation.
The hard carbon anode achieved significant performance improvements compared to traditional materials.
Identified optimal pyrolysis conditions resulted in enhanced charge capacity and cycle stability.
The eco-friendly approach demonstrates feasibility for sustainable battery production.
Abstract
Naringenin and lignin coupling; Bio-based phenolic resin; Environmentally friendly; Pyrolysis temperature regulation; Hard carbon anode; Sodium-ion batteries
Advanced sodium-ion battery anode material prepared by regulating an environmentally friendly hard carbon precursor through bio‑based molecular coupling | Synapse