Sodium-Selenium Batteries with Outstanding Rate Capability by Introducing Cubic Mn 2 O 3 Electrocatalyst

With their high volumetric capacity and electronic conductivity, sodium-selenium (Na-Se) batteries have attracted attention for advanced battery systems. However, the irreversible deposition of sodium selenide (Na Se) results in rapid capacity degradation and poor Coulombic efficiency. To address th...

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Veröffentlicht in:	ChemSusChem 2024-01, Vol.17 (2), p.e202300998
Hauptverfasser:	Erdol, Zeynep, Ata, Ali, Demir-Cakan, Rezan
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description	With their high volumetric capacity and electronic conductivity, sodium-selenium (Na-Se) batteries have attracted attention for advanced battery systems. However, the irreversible deposition of sodium selenide (Na Se) results in rapid capacity degradation and poor Coulombic efficiency. To address these issues, cubic α-Mn O is introduced herein as an electrocatalyst to effectively catalyze Na Se conversion and improve the utilization of active materials. The results show that the addition of 10 wt% Mn O in the selenium/Ketjen black (Se/KB) composite enhances the conversion from Na Se to Se by lowering activation energy barrier and leads to fast sodium-ion kinetics and low internal resistance. Consequently, the Mn O -based composite delivers a high specific capacity of 635 mAh ⋅ g at 675 mA ⋅ g after 250 cycles as well as excellent cycling stability for 800 cycles with a high specific capacity of 317 mAh ⋅ g even at the high current density of 3375 mA ⋅ g . Due to the cubic Mn O electrocatalyst, the performance of the composites is superior to existing state-of-the-art Na-Se batteries reported in the literature.
doi_str_mv	10.1002/cssc.202300998
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However, the irreversible deposition of sodium selenide (Na Se) results in rapid capacity degradation and poor Coulombic efficiency. To address these issues, cubic α-Mn O is introduced herein as an electrocatalyst to effectively catalyze Na Se conversion and improve the utilization of active materials. The results show that the addition of 10 wt% Mn O in the selenium/Ketjen black (Se/KB) composite enhances the conversion from Na Se to Se by lowering activation energy barrier and leads to fast sodium-ion kinetics and low internal resistance. Consequently, the Mn O -based composite delivers a high specific capacity of 635 mAh ⋅ g at 675 mA ⋅ g after 250 cycles as well as excellent cycling stability for 800 cycles with a high specific capacity of 317 mAh ⋅ g even at the high current density of 3375 mA ⋅ g . 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title	Sodium-Selenium Batteries with Outstanding Rate Capability by Introducing Cubic Mn 2 O 3 Electrocatalyst
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