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New Insight into the Confinement Effect of Microporous Carbon in Li/Se Battery Chemistry: A Cathode with Enhanced Conductivity

Xiwen Wang, Yuqing Tan, Zhixiao Liu, Yuqin Fan, Mingnan Li, Hussein A. Younus, Junfei Duan, Huiqiu Deng, Shiguo Zhang

2020Small60 citationsDOI

Abstract

Abstract Embedding the fragmented selenium into the micropores of carbon host has been regarded as an effective strategy to change the Li–Se chemistry by a solid–solid mechanism, thereby enabling an excellent cycling stability in Li–Se batteries using carbonate electrolyte. However, the effect of spatial confinement by micropores in the electrochemical behavior of carbon/selenium materials remains ambiguous. A comparative study of using both microporous (MiC) and mesoporous carbons (MeC) with narrow pore size distribution as selenium hosts is herein reported. Systematic investigations reveal that the high Se utilization rate and better electrode kinetics of MiC/Se cathode than MeC/Se cathode may originate from both its improved Li+ and electronic conductivities. The small pore size (<1.35 nm) of the carbon matrices not only facilitates the formation of a compact and robust solid‐electrolyte interface (SEI) with low interfacial resistance on cathode, but also alters the insulating nature of Li 2 Se due to the emergence of itinerant electrons. By comparing the electrochemical behavior of MiC/Se cathode and the matching relationship between the diameter of pores and the dimension of solvent molecules in carbonate, ether, and solvate ionic liquid electrolyte, the key role of SEI film in the operation of C/Se cathode by quasi‐solid‐solid mechanism is also highlighted.

Topics & Concepts

Microporous materialCathodeElectrolyteElectrochemistryMaterials scienceChemical engineeringCarbon fibersBattery (electricity)Inorganic chemistryNanotechnologyElectrodeChemistryPhysical chemistryComposite materialPower (physics)EngineeringQuantum mechanicsComposite numberPhysicsAdvanced Battery Materials and TechnologiesAdvancements in Battery Materials
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