Structural and Electrical Investigation of New Melilite Compound K0.86Na1.14CoP2O7

A new sodium-potassium cobalt diphosphate, K0.86Na1.14CoP2O7, is synthesized by solid state reaction method and characterized by X-ray diffraction (XRD) and impedance spectroscopy. The resulting structural model is supports by bond-valence-sum analysis (BVS) and charge distribution validations (CHAR...

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Published in:International journal of electrochemical science 2018-12, Vol.13 (12), p.11648-11662
Main Authors: Marzouki, Riadh, Smida, Youssef Ben, Guesmi, Abderrahmen, Georges, Samuel, Ali, Ismat H., Adams, Stefan, Zid, Mohamed Faouzi
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Language:English
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conduction pathways
Crystal structure
impedance spectroscopy
microstructure
relative density
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container_title International journal of electrochemical science
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creator Marzouki, Riadh
Smida, Youssef Ben
Guesmi, Abderrahmen
Georges, Samuel
Ali, Ismat H.
Adams, Stefan
Zid, Mohamed Faouzi
description A new sodium-potassium cobalt diphosphate, K0.86Na1.14CoP2O7, is synthesized by solid state reaction method and characterized by X-ray diffraction (XRD) and impedance spectroscopy. The resulting structural model is supports by bond-valence-sum analysis (BVS) and charge distribution validations (CHARDIT) tools. The mixed pyrophosphate crystallizes in the tetragonal system, space group P42/mnm with a=7.808(3) Å, c=10.757(3) Å. The structure is described as a 2D anionic framework with alkali cations sandwiched between layers. As mechanical grinder, ball-milling was used in order to reduce average particle size of the prepared powder. The optimal sintering temperature of the ceramic is 560°C, leading to a relative density of 83%. Their microstructure is characterized by scanning electron microscopy (SEM). The conductivity measurements of the obtained ceramic are studied over a temperature range from 360°C to 480°C. It shows that K0.86Na1.14CoP2O7 material is a low ionic conductor with a conductivity of σ= 8.26×10-7 S.cm-1 at 390°C and an activation energy of 1.34 eV. The bond valence site energy (BVSE) model is used to identify the conduction pathways for the monovalent cations, allowing a better correlation between the electrical and the structural data.
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Crystal structure
impedance spectroscopy
microstructure
relative density
title Structural and Electrical Investigation of New Melilite Compound K0.86Na1.14CoP2O7
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