Scalable Preparation and Improved Discharge Properties of FeS 2 @CoS 2 Cathode Materials for High-Temperature Thermal Battery

Scalable Preparation and Improved Discharge Properties of FeS 2 @CoS 2 Cathode Materials for High-Temperature Thermal Battery

Long-time thermal batteries with high specific energy are crucial for improving the fast response ability of long-range weapons. Due to its high capacity, safety, and stability, the new sulfide cathode has attracted extensive attention. In this study, an FeS @CoS composite cathode with a core-shell...

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Veröffentlicht in:Nanomaterials (Basel, Switzerland) Switzerland), 2022-04, Vol.12 (8)
Hauptverfasser: Tian, Qianqiu, Hu, Jing, Zhang, Shiyu, Han, Xiaopeng, Guo, Hao, Tang, Licheng, Wang, Jiajun, Hu, Wenbin
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container_title Nanomaterials (Basel, Switzerland)
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creator Tian, Qianqiu
Hu, Jing
Zhang, Shiyu
Han, Xiaopeng
Guo, Hao
Tang, Licheng
Wang, Jiajun
Hu, Wenbin
description Long-time thermal batteries with high specific energy are crucial for improving the fast response ability of long-range weapons. Due to its high capacity, safety, and stability, the new sulfide cathode has attracted extensive attention. In this study, an FeS @CoS composite cathode with a core-shell structure was prepared via a combination of hydrothermal and high-temperature vulcanization processes. The novel FeS @CoS cathode not only delivers a high discharge voltage and output capacity, but also has high thermal stability and excellent conductivity. Benefiting from the synergistic effect of FeS and CoS , the as-synthesized cathode yields a high specific capacity. At a large current density of 1 A/cm , the utilization rate of FeS @CoS cathode material can reach 72.33%, which is 8.23% higher than that of FeS . Moreover, the maximum output capacity is up to 902 As/g, with a utilization rate of 79.02% at 500 mA/cm . This novel design strategy holds great promise for the development and application of high-performance thermal batteries in the future.
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title Scalable Preparation and Improved Discharge Properties of FeS 2 @CoS 2 Cathode Materials for High-Temperature Thermal Battery
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