An oxygen doped porous hard carbon derived from durian shell for high-performance sodium ion storage
Jianliang Guo, Zhihua Sun, Wenzheng Zhu, Lei Li, Song Han, Hongxun Yang

TL;DR
Researchers made a high-performance anode for sodium ion batteries using durian shells, achieving good sodium storage capacity.
Contribution
A novel method to synthesize porous hard carbon from durian shells with oxygen doping for improved sodium ion storage.
Findings
Durian shell-derived hard carbon at 700°C showed 297.2 mAh g−1 capacity after 100 cycles.
Oxygen doping and porous structure enhanced sodium ion transport and storage.
The method offers a cost-effective and scalable approach for biomass-based battery materials.
Abstract
Hard carbon is one of the most promising anodes for sodium ion batteries (SIBs) because of its low charge/discharge voltage platform, high specific surface area and higher layer spacing. However, the disadvantages of its unsatisfactory sodium storage capacity and high cost owing to low carbonization yield of precursors frustrate its practical applications. In this paper, we have developed a porous hard carbon derived from durian shell (DSHC) synthesized via acid washing and secondary calcination by adjusting carbonization temperature. As an anode for SIBs, the durian shell carbonization at 700 °C (DSHC700) with suitable graphite layer spacing (0.382 nm) delivered a high capacity of 297.2 mAh g−1 after 100 cycles at 25 mA g−1. The excellent electrochemical performance is attributed to the moderate interlayer spacing due to oxygen doping, and the natural rich porous structure which can…
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Taxonomy
TopicsAdvancements in Battery Materials · Advanced Battery Materials and Technologies · Thermal Expansion and Ionic Conductivity
