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Correction: Stabilizing the Li1.4Al0.4Ti1.6(PO4)3/Li interface with an in situ constructed multifunctional interlayer for high energy density batteries

Can Huang a, Shuo Huang b, Aolai Wang a, Ziying Liu a, Dexuan Pei a, Jianhe Hong a, Shuen Hou a, Levente Vitos b and Hongyun Jin *a
aEngineering Research Center of Nano-Geo Materials of Ministry of Education, Faculty of Materials Science and Chemistry, China University of Geosciences, Wuhan 430074, China. E-mail: jinhongyun@cug.edu.cn
bDepartment of Materials Science and Engineering, Royal Institute of Technology, Stockholm SE-100 44, Sweden

Received 25th July 2023 , Accepted 25th July 2023

First published on 4th August 2023


Abstract

Correction for ‘Stabilizing the Li1.4Al0.4Ti1.6(PO4)3/Li interface with an in situ constructed multifunctional interlayer for high energy density batteries’ by Can Huang et al., J. Mater. Chem. A, 2022, 10, 25500–25508, https://doi.org/10.1039/D2TA07783C.


The authors regret a mistake in Fig. 2. The Nyquist plots in Fig. 2(e) and (f) were incorrectly used and should only appear, correctly, in Fig. 5. The Nyquist plots which should have appeared in Fig. 2(e) and (f) were incorrectly omitted from the published article. The corrected figure is presented here.
image file: d3ta90159a-f2.tif
Fig. 2 (a) CCD of LATP and MLATP with different additions of Mg3N2. (b) Galvanostatic charging and discharging cycles of symmetric cells assembled with LATP and MLATP with different additions of Mg3N2, and (c and d) corresponding charge–discharge curves of the Li/MLATP_20%/Li and Li/LATP/Li cells. (e and f) Nyquist plots of the Li/LATP/Li and Li/MLATP_20%/Li cells before cycling and after different cycle times. (g) Comparison of the electrochemical performance in this work with recent reported NASICON-based works.

The Royal Society of Chemistry apologises for these errors and any consequent inconvenience to authors and readers.


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