Synergistic Ultramicropore-Confined and Electronic-State Modulation Strategies in Sustainable Lignin-Derived Hard Carbon for Robust Sodium-Ion Batteries
Yuzhong Xie, Yuqing Wang, Yusuke Yamauchi, Minjun Kim, Fang Yuan, Yuhang He, Yiqiang Wu, Caichao Wan

TL;DR
This paper introduces a new method to improve sodium-ion battery anodes using lignin waste, achieving high efficiency and capacity through pore and electronic structure control.
Contribution
A synergistic strategy combining ultramicropore confinement and electronic-state modulation in lignin-derived hard carbon is proposed.
Findings
N-S@HDM-1300 achieves 90.6% initial coulombic efficiency and 401.5 mAh g−1 reversible capacity.
The material shows 95.0% capacity retention after 500 cycles.
Preoxidation creates a closed-pore-dominated structure with expanded interlayer spacing.
Abstract
The performance of hard carbon anodes in sodium-ion batteries is restricted by competing mechanisms: excessive surfaces cause irreversible reactions lowering the initial coulombic efficiency, while insufficient active sites limit capacity. To mitigate this trade-off effect, a synergistic strategy of ultramicropore confinement and electronic-state modulation in lignin-derived hard carbon was created. Using sodium lignosulfonate, a common sulfonated polymer in paper-making waste, we developed N/S-codoped hard carbon microspheres (N-S@HDM) via preoxidation-induced cross-linking and optimized pyrolysis. Preoxidation inhibits graphitic alignment, creating an expanded interlayer spacing and a closed-pore-dominated structure (94.27% at 1,300 °C). This interconnected network (fa = 0.85) enables ultramicropore confinement, thus shortening diffusion paths, boosting kinetics, and providing ample…
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Taxonomy
TopicsAdvancements in Battery Materials · Advanced Battery Materials and Technologies · Supercapacitor Materials and Fabrication
