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Transport Properties and Local Ions Dynamics in LATP-Based Hybrid Solid Electrolytes

journal contribution
posted on 2023-11-09, 04:40 authored by N Boaretto, P Ghorbanzade, H Perez-Furundarena, L Meabe, JM López del Amo, IE Gunathilaka, Maria ForsythMaria Forsyth, J Schuhmacher, A Roters, S Krachkovskiy, A Guerfi, M Armand, M Martinez-Ibañez
AbstractHybrid solid electrolytes (HSEs), namely mixtures of polymer and inorganic electrolytes, have supposedly improved properties with respect to inorganic and polymer electrolytes. In practice, HSEs often show ionic conductivity below expectations, as the high interface resistance limits the contribution of inorganic electrolyte particles to the charge transport process. In this study, the transport properties of a series of HSEs containing Li(1+x)AlxTi(2–x)(PO4)3 (LATP) as Li+‐conducting filler are analyzed. The occurrence of Li+ exchange across the two phases is proved by isotope exchange experiment, coupled with 6Li/7Li nuclear magnetic resonance (NMR), and by 2D 6Li exchange spectroscopy (EXSY), which gives a time constant for Li+ exchange of about 50 ms at 60 °C. Electrochemical impedance spectroscopy (EIS) distinguishes a short‐range and a long‐range conductivity, the latter decreasing with LATP concentration. LATP particles contribute to the overall conductivity only at high temperatures and at high LATP concentrations. Pulsed field gradient (PFG)‐NMR suggests a selective decrease of the anions’ diffusivity at high temperatures, translating into a marginal increase of the Li+ transference number. Although the transport properties are only marginally affected, addition of moderate amounts of LATP to polymer electrolytes enhances their mechanical properties, thus improving the plating/stripping performance and processability.

History

Journal

Small

Pagination

e2305769-

Location

London, Eng.

ISSN

1613-6810

eISSN

1613-6829

Language

eng

Publication classification

C1 Refereed article in a scholarly journal

Publisher

Wiley

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