Scalable synthesis and surface stabilization of Li2MnO3 NWs as high rate cathode materials for Li-ion batteries

Venkat Kalyan Vendra; Tu Quang Nguyen; Arjun Kumar Thapa; Jacek B. Jasinski; Mahendra K. Sunkara

doi:10.1039/C5RA01334H

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Scalable synthesis and surface stabilization of Li₂MnO₃ NWs as high rate cathode materials for Li-ion batteries†

Venkat Kalyan Vendra,^ab Tu Quang Nguyen,^ab Arjun Kumar Thapa,^b Jacek B. Jasinski^b and Mahendra K. Sunkara*^ab

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* Corresponding authors

^a Department of Chemical Engineering, University of Louisville, Louisville, KY 40292, USA
E-mail: mahendra@louisville.edu

^b Conn Center for Renewable Energy Research, University of Louisville, Louisville, KY 40292, USA

Abstract

Li₂MnO₃ nanowires (NWs) are synthesized using a scalable two-step process involving a solvo-plasma technique, utilizing inexpensive precursors such as commercially available MnO₂ microparticle powders and KCl, followed by a solid state lithiation process. Lithium manganese oxide (Li₂MnO₃) nanowires exhibited high capacity retention of 120 mA h g⁻¹ in the 2–4.5 V voltage window even at high C-rates such as 20 C. The specific capacity of the Li₂MnO₃ NWs gradually increased with cycling and subsequently stabilized. Further, the Li₂MnO₃ NW cathodes exhibited no loss in the capacity for 100 cycles with close to 100% coulombic efficiency. Most importantly, single crystalline Li₂MnO₃ nanowires with short transport length scales for Li, O and Mn atoms along the radial direction allow for the formation of a thick and conformal LiMn₂O₄ shell resulting in increased capacity, excellent capacity retention and high coulombic efficiencies.

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Article information

DOI: https://doi.org/10.1039/C5RA01334H
Article type: Communication
Submitted: 22 Jan 2015
Accepted: 14 Apr 2015
First published: 14 Apr 2015

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RSC Adv., 2015,5, 36906-36912

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Scalable synthesis and surface stabilization of Li₂MnO₃ NWs as high rate cathode materials for Li-ion batteries

V. K. Vendra, T. Q. Nguyen, A. K. Thapa, J. B. Jasinski and M. K. Sunkara, RSC Adv., 2015, 5, 36906 DOI: 10.1039/C5RA01334H

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