Piperidinium tethered nanoparticle-hybrid electrolyte for lithium metal batteries
2014
Korf, Kevin S. | Lu, YingYing | Kambe, Yu | Archer, Lynden A.
We report on the synthesis of novel piperidinium-based ionic liquid tethered nanoparticle hybrid electrolytes and investigate their physical and electrochemical properties. Hybrid electrolytes based on the ionic liquid 1-methyl-1-propylpiperidinium bis(trifluoromethanesulfone) imide covalently tethered to silica nanoparticles (SiO₂–PP–TFSI) were blended with propylene carbonate–1 M lithium bis(trifluoromethanesulfone) imide (LiTFSI). We employed NMR analysis to confirm the successful creation of the hybrid material. Dielectric and rheological measurements show that these electrolytes exhibit exceptional room-temperature DC ionic conductivity (10⁻² to 10⁻³ S cm⁻¹) as well as high shear mechanical moduli (10⁵ to 10⁶ Pa). Lithium transference numbers were found to increase with particle loading and to reach values as high as 0.22 at high particle loadings where the particle jam to form a soft glassy elastic medium. Analysis of lithium electrodeposits obtained in the hybrid electrolytes using SEM and EDX spectra show that the SiO₂–PP–TFSI nanoparticles are able to smooth lithium deposition and inhibit lithium dendrite proliferation in Li metal batteries. LTO|SiO₂–PP–TFSI/PC in 1 M LiTFSI|Li half-cells based on the SiO₂–PP–TFSI hybrid electrolytes exhibit attractive voltage profiles and trouble-free extended cycling behavior over more than 1000 cycles of charge and discharge.
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