Sodium Ion Batteries: Stable Carbon–Selenium Bonds for Enhanced Performance in <i>Tremella</i>‐Like 2D Chalcogenide Battery Anode (Adv. Energy Mater. 23/2018) - Concepedia

Concepedia

Publication | Open Access

Sodium Ion Batteries: Stable Carbon–Selenium Bonds for Enhanced Performance in <i>Tremella</i>‐Like 2D Chalcogenide Battery Anode (Adv. Energy Mater. 23/2018)

DOI Full Paper Access

24

Citations

0

References

2018

Year

Yu Li, Yahong Xu, Zhaohua Wang, Ying Bai, Kai Zhang, Ruiqi Dong, Yaning Gao, Qiao Ni, Feng Wu, Yijin Liu,

Advanced Energy Materials

EngineeringElectrode-electrolyte InterfaceExcellent Electrochemical PerformanceChemistryChalcogenide Battery AnodeChemical EngineeringSodium BatteryHybrid MaterialsSodium Ion BatteriesSodium-ion BatteriesMaterials ScienceVolume ExpansionBattery Electrode MaterialsEnergy StorageSolid-state BatteryElectrochemical ProcessElectrochemistryElectric BatteryLi-ion Battery MaterialsElectrosynthesisElectrochemical Energy StorageBatteriesStable C–se BondsAnode MaterialsStable Carbon–selenium Bonds

Abstract

In article number 1800927, Ying Bai, Yijin Liu, Chuan Wu and co-workers successfully synthesize a hierarchical porous CoSe-rGO hybrid with stable C–Se bonds, which can suppress the dissolution of Se and mitigate the volume expansion during charge-discharge process, and thus play a crucial role for excellent electrochemical performance.