Analysing operando Mössbauer spectra of battery materials: a chemometric approach to the study of NaFeO2 as positive electrode material for Na-ion batteries

Stievano, Lorenzo; Sougrati, Moulay Tahar; Darwiche, Ali; Bessas, Dimitrios; Mahmoud, Abdelfattah; Hermann, Raphaël

Unpublished conference/Abstract (Scientific congresses and symposiums)

Stievano, Lorenzo; Sougrati, Moulay Tahar; Darwiche, Ali et al.

2017 • Groupe Francophone de Spectrométrie Mössbauer 2017

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Keywords :

Na-ion batteries; Mossbauer spectroscopy; NaFeO2

Abstract :

[en] Among the possible positive electrode materials for Na-ion batteries, iron-based oxides have been regarded as promising solids for the reversible insertion/deinsertion of Na on the basis of their abundance in the Earth’s crust. In particular, O3-type NaFeO2, easily prepared from the reaction of iron oxide and Na2CO3 at 600°C, has been identified as the most interesting one from the viewpoint of both gravimetric and volumetric energy density.[1–3] Na/NaFeO2 cells cycle through a relatively flat potential plateau between 3.3 and 3.4 V vs. Na+/Na, commonly associated with the Fe4+/Fe3+ redox couple. However, if cycling is extended above 3.5 V, other irreversible reaction plateaux appear, which completely inactivate the material. 57Fe Mössbauer spectroscopy is thus a method of choice for the study of both (1) the cycling mechanism and (2) the irreversible reactions occurring above 3.5 V. In this work, operando 57Fe Mössbauer spectra were collected during the electrochemical cycling of NaFeO2 vs. Na metal using a specifically designed in situ cell,[4] and analysed using an alternative and innovating data analysis approach based on chemometric tools such as Principal Component Analysis (PCA) and multivariate curve resolution (MCR).[5,6] This approach, which allows the unbiased extraction of all possible information from the operando data, enabled the stepwise reconstruction of the “real” spectral components occurring during the cycling of NaFeO2. In this way, a clear description of the electrochemically active iron species could be obtained, allowing a clearer comprehension of the cycling mechanisms of this material vs. sodium. Références : [1] J. Zhao, L. Zhao, N. Dimov, O. Shigeto, T. Nishida, J. Electrochem. Soc. 160 (2013) A3077. [2] H. Yoshida, N. Yabuuchi, S. Komaba, in:, ECS Meet. Abstr. MA2012-02, ECS, Honolulu, 2011, p. 1850. [3] P. Barpanda, Chem. Mater. 28 (2016) 1006. [4] J.-B. Leriche, S. Hamelet, J. Shu, M. Morcrette, C. Masquelier, G. Ouvrard, M. Zerrouki, P. Soudan, S. Belin, E. Elkaïm, F. Baudelet, J. Electrochem. Soc. 157 (2010) A606. [5] R. Tauler, Chemom. Intell. Lab. 30 (1995) 133. [6] A. Voronov, A. Urakawa, W. van Beek, N.E. Tsakoumis, H. Emerich, M. Rønning, Anal. Chim. Acta 840 (2014) 20.

Disciplines :

Chemistry

Author, co-author :

Stievano, Lorenzo; Université Montpellier

Sougrati, Moulay Tahar; Université Montpellier

Darwiche, Ali; Université Montpellier

Bessas, Dimitrios; European Synchrotron Radiation Facility

Mahmoud, Abdelfattah ; Université de Liège > Département de chimie (sciences) > LCIS - GreenMAT

Hermann, Raphaël ; Oak Ridge National Lab

Language :

English

Title :

Analysing operando Mössbauer spectra of battery materials: a chemometric approach to the study of NaFeO2 as positive electrode material for Na-ion batteries

Publication date :

19 May 2017

Event name :

Groupe Francophone de Spectrométrie Mössbauer 2017

Event place :

Beni-Mellal, Morocco

Event date :

du 18 mai 2017 au 19 mai 2017

Audience :

International

Available on ORBi :

since 05 June 2017

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