Effect of the LLTO nanoparticles on the conducting properties of PEO-based solid electrolyte

Carlos Ricardo Milian Pila; Eduardo Pérez Cappe; Nelcy Della Santina Mohallem; Oswaldo Luiz Alves; Miguel Angel Aguilar Frutis; Nédher Sánchez-Ramírez; Roberto Manuel Torresi; Héctor León Ramírez; Yodalgis Mosqueda Laffita

doi:10.1016/j.solidstatesciences.2018.10.014

Effect of the LLTO nanoparticles on the conducting properties of PEO-based solid electrolyte

Carlos Ricardo Milian Pila, Eduardo Pérez Cappe, Nelcy Della Santina Mohallem, Oswaldo Luiz Alves, Miguel Angel Aguilar Frutis, Nédher Sánchez-Ramírez, Roberto Manuel Torresi, Héctor León Ramírez, Yodalgis Mosqueda Laffita

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

26 Citas (Scopus)

Resumen

The influence of LLTO (Li_0.33La_0.56TiO₃) nanoparticles on the conducting properties of PEO (polyethylene oxide)₈-LiClO₄ polymer-salt complex electrolyte still remains not fully understood. This paper aims to establish the role of LLTO filler concentration, its morphology, agglomeration and charge nanoparticles surface on the ionic transport of (PEO)₈-LiClO₄-based solid electrolytes. Four samples of (PEO)₈-LiClO₄- LLTO composites, with 0, 5, 10 and 15 wt% of LLTO filler, were prepared. Several techniques were used to verify the obtainment of the required samples and to find out how the LLTO filler can modify the conductivity of the (PEO)₈-LiClO₄ polymer-salt complex electrolyte. The obtained results suggest that the transport of Li ions in these nanocomposites occurs predominantly through the polymeric phase, not by the conducting LLTO ceramic employed as filler. The highest conductivity value (10⁻³ S/cm at 338 K) is reached for 10 wt % of LLTO filler in the composite, where the polymeric phase is completely amorphous.

Idioma original	Inglés
Páginas (desde-hasta)	41-47
Número de páginas	7
Publicación	Solid State Sciences
Volumen	88
DOI	https://doi.org/10.1016/j.solidstatesciences.2018.10.014
Estado	Publicada - feb. 2019
Publicado de forma externa	Sí

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title = "Effect of the LLTO nanoparticles on the conducting properties of PEO-based solid electrolyte",

abstract = "The influence of LLTO (Li0.33La0.56TiO3) nanoparticles on the conducting properties of PEO (polyethylene oxide)8-LiClO4 polymer-salt complex electrolyte still remains not fully understood. This paper aims to establish the role of LLTO filler concentration, its morphology, agglomeration and charge nanoparticles surface on the ionic transport of (PEO)8-LiClO4-based solid electrolytes. Four samples of (PEO)8-LiClO4- LLTO composites, with 0, 5, 10 and 15 wt% of LLTO filler, were prepared. Several techniques were used to verify the obtainment of the required samples and to find out how the LLTO filler can modify the conductivity of the (PEO)8-LiClO4 polymer-salt complex electrolyte. The obtained results suggest that the transport of Li ions in these nanocomposites occurs predominantly through the polymeric phase, not by the conducting LLTO ceramic employed as filler. The highest conductivity value (10−3 S/cm at 338 K) is reached for 10 wt % of LLTO filler in the composite, where the polymeric phase is completely amorphous.",

keywords = "(PEO)-LiClO- LLTO composites, Ionic conductivity, Li-battery, Polymeric electrolyte",

author = "{Milian Pila}, {Carlos Ricardo} and Cappe, {Eduardo P{\'e}rez} and Mohallem, {Nelcy Della Santina} and Alves, {Oswaldo Luiz} and {Aguilar Frutis}, {Miguel Angel} and N{\'e}dher S{\'a}nchez-Ram{\'i}rez and Torresi, {Roberto Manuel} and {Le{\'o}n Ram{\'i}rez}, H{\'e}ctor and Laffita, {Yodalgis Mosqueda}",

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year = "2019",

month = feb,

doi = "10.1016/j.solidstatesciences.2018.10.014",

language = "English",

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pages = "41--47",

journal = "Solid State Sciences",

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AU - Milian Pila, Carlos Ricardo

AU - Cappe, Eduardo Pérez

AU - Mohallem, Nelcy Della Santina

AU - Alves, Oswaldo Luiz

AU - Aguilar Frutis, Miguel Angel

AU - Sánchez-Ramírez, Nédher

AU - Torresi, Roberto Manuel

AU - León Ramírez, Héctor

AU - Laffita, Yodalgis Mosqueda

PY - 2019/2

Y1 - 2019/2

N2 - The influence of LLTO (Li0.33La0.56TiO3) nanoparticles on the conducting properties of PEO (polyethylene oxide)8-LiClO4 polymer-salt complex electrolyte still remains not fully understood. This paper aims to establish the role of LLTO filler concentration, its morphology, agglomeration and charge nanoparticles surface on the ionic transport of (PEO)8-LiClO4-based solid electrolytes. Four samples of (PEO)8-LiClO4- LLTO composites, with 0, 5, 10 and 15 wt% of LLTO filler, were prepared. Several techniques were used to verify the obtainment of the required samples and to find out how the LLTO filler can modify the conductivity of the (PEO)8-LiClO4 polymer-salt complex electrolyte. The obtained results suggest that the transport of Li ions in these nanocomposites occurs predominantly through the polymeric phase, not by the conducting LLTO ceramic employed as filler. The highest conductivity value (10−3 S/cm at 338 K) is reached for 10 wt % of LLTO filler in the composite, where the polymeric phase is completely amorphous.

AB - The influence of LLTO (Li0.33La0.56TiO3) nanoparticles on the conducting properties of PEO (polyethylene oxide)8-LiClO4 polymer-salt complex electrolyte still remains not fully understood. This paper aims to establish the role of LLTO filler concentration, its morphology, agglomeration and charge nanoparticles surface on the ionic transport of (PEO)8-LiClO4-based solid electrolytes. Four samples of (PEO)8-LiClO4- LLTO composites, with 0, 5, 10 and 15 wt% of LLTO filler, were prepared. Several techniques were used to verify the obtainment of the required samples and to find out how the LLTO filler can modify the conductivity of the (PEO)8-LiClO4 polymer-salt complex electrolyte. The obtained results suggest that the transport of Li ions in these nanocomposites occurs predominantly through the polymeric phase, not by the conducting LLTO ceramic employed as filler. The highest conductivity value (10−3 S/cm at 338 K) is reached for 10 wt % of LLTO filler in the composite, where the polymeric phase is completely amorphous.

KW - (PEO)-LiClO- LLTO composites

KW - Ionic conductivity

KW - Li-battery

KW - Polymeric electrolyte

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Effect of the LLTO nanoparticles on the conducting properties of PEO-based solid electrolyte

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