2017
DOI: 10.1021/acsami.7b03806
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Composite Polymer Electrolytes with Li7La3Zr2O12 Garnet-Type Nanowires as Ceramic Fillers: Mechanism of Conductivity Enhancement and Role of Doping and Morphology

Abstract: Composite polymer solid electrolytes (CPEs) containing ceramic fillers embedded inside a polymer-salt matrix show great improvements in Li ionic conductivity compared to the polymer electrolyte alone. Lithium lanthanum zirconate (LiLaZrO, LLZO) with a garnet-type crystal structure is a promising solid Li conductor. We show that by incorporating only 5 wt % of the ceramic filler comprising undoped, cubic-phase LLZO nanowires prepared by electrospinning, the room temperature ionic conductivity of a polyacrylonit… Show more

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Cited by 354 publications
(285 citation statements)
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“…6b). The mechanisms of conductivity enhancement were studied recently by Chan et al [133] using solid-state NMR measurements, and they proposed that Li + preferentially travel through the LLZOmodified PAN regions rather than the unmodified PAN regions. Because randomly distributed nanowires, possessing a significant portion of ceramic materials, are unable to contribute to ion transportation if they are aligned in parallel to the electrolyte surface, Zhai et al [162] fabricated a vertically aligned and connected LATP ion-conductive ceramic filler using an ice-templating-based method (Fig.…”
Section: Shapes Of Inorganic Fillersmentioning
confidence: 99%
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“…6b). The mechanisms of conductivity enhancement were studied recently by Chan et al [133] using solid-state NMR measurements, and they proposed that Li + preferentially travel through the LLZOmodified PAN regions rather than the unmodified PAN regions. Because randomly distributed nanowires, possessing a significant portion of ceramic materials, are unable to contribute to ion transportation if they are aligned in parallel to the electrolyte surface, Zhai et al [162] fabricated a vertically aligned and connected LATP ion-conductive ceramic filler using an ice-templating-based method (Fig.…”
Section: Shapes Of Inorganic Fillersmentioning
confidence: 99%
“…This is because the dispersion of inorganic fillers in polymer matrixes creates surface interactions that can reduce the crystallization tendencies of the polymer and promote the dissociation of lithium salts [132]. In addition, the resulting abundant interfaces of the composite electrolyte can provide numerous transport pathways for Li + , improving ionic conductivity [133].…”
Section: Polymer/inorganic Amalgamated Electrolytesmentioning
confidence: 99%
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“…Further, in addition to particle‐based nanofillers, there were emerged considerable studies on 1D ion‐conductive nanofillers that helped build more continuous and efficient pathways for rapidly transporting Li + depending on the polymer–filler interfaces or the nanofillers themselves. For example, Li 0.33 La 0.557 TiO 3 nanowires (NWs) fabricated by Liu et al and Li 7 La 3 Zr 2 O 12 garnet‐type NWs reported by Yang et al remarkably enhanced the ionic conductivity of the CPEs as compared with the particle‐shaped counterparts. In a nutshell, design of 1D nanofillers with unique surface properties is considered to be one of the most promising strategies for constructing fast ion‐conduction pathways for fabricating high‐performance CPEs.…”
Section: Introductionmentioning
confidence: 99%
“…Further, in addition to particle-based nanofillers, there were emerged considerable studies on 1D ion-conductive nanofillers that helped build more continuous and efficient pathways for rapidly transporting Li + depending on the polymer-filler interfaces or the nanofillers themselves. For example, Li 0.33 La 0.557 TiO 3 nanowires (NWs) fabricated by Liu et al [9] and Li 7 La 3 Zr 2 O 12 garnet-type NWs reported by Yang et al [44] remarkably enhanced 1803564 (3 of 12) www.advancedsciencenews.com…”
mentioning
confidence: 99%