2001
DOI: 10.1016/s0167-2738(01)00683-x
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Reaction of NASICON with water

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Cited by 65 publications
(58 citation statements)
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“…On exposure to neutral environments, the non-silicon version of NASICON:NaZr2(PO4)3 is formed along with ZrSiO4 at 0 V, materials known to be less ionically conductive compared to NASICON. This is qualitatively in good agreement with the experiments explaining the change in the surface morphology as well as the conductivity (Ahmad et al, 1987;Mauvy et al, 1999;Fuentes et al, 2001). Fuentes et al (2001) attributes the change in surface morphology to the formation of hydronium NASICON, but positive identification has been found lacking.…”
Section: Oxidessupporting
confidence: 88%
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“…On exposure to neutral environments, the non-silicon version of NASICON:NaZr2(PO4)3 is formed along with ZrSiO4 at 0 V, materials known to be less ionically conductive compared to NASICON. This is qualitatively in good agreement with the experiments explaining the change in the surface morphology as well as the conductivity (Ahmad et al, 1987;Mauvy et al, 1999;Fuentes et al, 2001). Fuentes et al (2001) attributes the change in surface morphology to the formation of hydronium NASICON, but positive identification has been found lacking.…”
Section: Oxidessupporting
confidence: 88%
“…This is qualitatively in good agreement with the experiments explaining the change in the surface morphology as well as the conductivity (Ahmad et al, 1987;Mauvy et al, 1999;Fuentes et al, 2001). Fuentes et al (2001) attributes the change in surface morphology to the formation of hydronium NASICON, but positive identification has been found lacking. In the voltage range −3.5 to −1 V (SHE), exposure to aqueous environments leads to formation of phosphine, which in gaseous form is known to be toxic and highly flammable.…”
Section: Oxidessupporting
confidence: 88%
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“…The seawater battery system needs a solid electrolyte to be very stable in aqueous solution and the NASI-CON-type solid electrolyte showed good chemical stability throughout 40 cycles in contact with seawater ( Figure S4). However, as its long-term stability in water is a concern, [16] further research is planned to evaluate its long-term stability in seawater and effects on electrochemical performance.…”
mentioning
confidence: 99%
“…Li 1.4 La 0.4 Zr 1.6 (PO 4 ) 3 (LLZP) also possesses the NASICON structure with a partial substitution Zr 4+ →La 3+ + Li + , the Li + ions occupy the Type I and Type II sites. The occupation of Li ions at the Type II sites is favorable for the chemical stability of materials [15,16].…”
Section: Introductionmentioning
confidence: 99%