Correction: Charge compensation endows K 0.16 Na 0.05 (NH 4 ) 0.71 V 4 O 10−x ·0.63H 2 O cathode with tunable lattice strain for efficient Zn 2+ storage

Xueke Zhu; Dong Fang; Lang Zhang; Jianhong Yi

doi:10.1039/D5DT90218E

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DOI: 10.1039/D5DT90218E (Correction) Dalton Trans., 2026, Advance Article

Correction: Charge compensation endows K_0.16Na_0.05(NH₄)_0.71V₄O_10−x·0.63H₂O cathode with tunable lattice strain for efficient Zn²⁺ storage

Xueke Zhu, Dong Fang*, Lang Zhang* and Jianhong Yi
Faculty of Materials Science and Engineering, Kunming University of Science and Technology, Kunming, 650093, P. R. China. E-mail: fangdong@kmust.edu.cn; 3086818048@qq.com

Received 8th December 2025 , Accepted 8th December 2025

First published on 15th December 2025

Abstract

Correction for ‘Charge compensation endows K_0.16Na_0.05(NH₄)_0.71V₄O_10−x·0.63H₂O cathode with tunable lattice strain for efficient Zn²⁺ storage’ by Xueke Zhu et al., Dalton Trans., 2025, 54, 12516–12523, https://doi.org/10.1039/D5DT01363A.

The authors regret errors in Fig. 1. The correct figure is reproduced here.


	Fig. 1 Phase and structural characterization of NaNVOH and NaKNVOH. (a) XRD patterns and the enlarged patterns of (001) plane. (b) FTIR spectra. (c) Raman spectra. (d) TG curves. (e) EPR patterns. (f) V 2p, (g) O 1s, and (h) K 2p high-resolution XPS spectra.

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

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Correction: Charge compensation endows K0.16Na0.05(NH4)0.71V4O10−x·0.63H2O cathode with tunable lattice strain for efficient Zn2+ storage

Abstract

Correction: Charge compensation endows K_0.16Na_0.05(NH₄)_0.71V₄O_10−x·0.63H₂O cathode with tunable lattice strain for efficient Zn²⁺ storage