Scalable synthesis of spherical graphite/ZnO composite anodes for high-performance lithium-ion batteries
Thien Tri Vu, Duy Van Lai, Kien Trung Pham, Phong Quang Le, Thanh Huu Le, Hung Tran Nguyen, Trung-Dung Dang, Duong Duc La

TL;DR
A new hybrid anode for lithium-ion batteries combines graphite and ZnO to improve performance and stability.
Contribution
A scalable method to synthesize SG/ZnO hybrid anodes with enhanced electrochemical performance.
Findings
SG/ZnO hybrid anodes show a reversible capacity of 423 mAh g−1 after 150 cycles.
The hybrid structure improves conductivity and accommodates volume changes during cycling.
The method outperforms traditional graphite and ZnO anodes in stability and capacity.
Abstract
Reimagining graphite anodes through hybrid nano-architectures offers a powerful route to break the long-standing trade-off between capacity and stability in lithium-ion batteries. Here, we design a porous spherical graphite/ZnO (SG/ZnO) hybrid anode via a scalable one-pot hydrothermal synthesis combined with high-energy ball milling and mild annealing. The resulting hierarchical framework features robust SG–ZnO interfacial coupling, merging the conductivity and structural resilience of spherical graphite with the high capacity and surface reactivity of ZnO nanosheets. This architecture ensures efficient Li+ transport, accommodates volume changes, and suppresses mechanical degradation. The optimized SG/ZnO composite (SG-7/ZnO) delivers a reversible capacity of 423 mAh g−1 at 160 mAh g−1 over 150 cycles, significantly outperforming pristine SG and ZnO, owing to its excellent charge…
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Taxonomy
TopicsAdvancements in Battery Materials · Advanced Battery Technologies Research · Advanced Battery Materials and Technologies
