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Synergistic Effect of Blended Components in Nonaqueous Electrolytes for Lithium Ion Batteries

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Abstract

Application of different electrolyte components as blends in nonaqueous electrolyte formulations represents a viable approach towards improving the overall performance and reliability of a lithium ion battery cell. By combining the advantages of different electrolyte constituents, cell chemistry can be optimized and tailored for a specific purpose. In this paper, the current progress on possibilities, advantages, as well as limitations of blended nonaqueous electrolyte formulations, including solvent, salt and additive blends is reviewed and discussed. Emphasis is set on the physicochemical, electrochemical, and safety aspects. In addition, the aim of this review is to provide perspective and possible strategy for further and future development of blended nonaqueous electrolytes with long life, high energy density, high power, and adequate safety at competitive manufacturing costs. The provided overview and perspective on blended nonaqueous electrolyte formulations should encourage researchers to proceed with further and deeper investigations in this promising field of advanced batteries.

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Reprinted from Ref. [26]. Copyright (2014) with permission of Royal Society of Chemistry

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Reprinted from Ref. [32]. Copyright (2013) with permission of ECS

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Reprinted from Ref. [29]. Copyright (2010) with permission of Elsevier

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Reprinted from Ref. [30]. Copyright (2011) with permission of Elsevier

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Redrawn from Ref. [41]. Copyright (2016) with permission of Royal Society of Chemistry

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Redrawn from Ref. [15]. Copyright (2009) with permission of Elsevier

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Reprinted from Ref. [35]. Copyright (2011) with permission of Elsevier

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Reprinted from Ref. [48]. Copyright (2013) with permission of Elsevier

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Reprinted from Ref. [48]. Copyright (2013) with permission of Elsevier

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Reprinted from Ref. [83]. Copyright (2010) with permission of Elsevier

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Reprinted from Ref. [87] Copyright (2015) with permission of Elsevier

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Reprinted from Ref. [95]. Copyright (2006) with permission of Elsevier

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Reprinted from Ref. [86]. Copyright (2015) with permission from Elsevier

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Redrawn from Ref. [73]. Copyright (2006) with permission of Elsevier

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Redrawn from Ref. [84] Copyright (2015) with permission of Elsevier

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Reprinted from Ref. [154]. Copyright (2007) with permission of Elsevier

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Redrawn from Ref. [180]

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Redrawn from Ref [143, 202]. Copyright (2013 and 2016) with permission of Elsevier and ACS

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Reprinted from Ref. [219].Copyright (2014) with permission of ECS

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Reprinted from Ref. [258]. Copyright (2015) with permission of ECS

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Correspondence to Isidora Cekic-Laskovic.

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This article is part of the Topical Collection “Electrochemical Energy Storage”: edited by Rüdiger A. Eichel.

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Cekic-Laskovic, I., von Aspern, N., Imholt, L. et al. Synergistic Effect of Blended Components in Nonaqueous Electrolytes for Lithium Ion Batteries. Top Curr Chem (Z) 375, 37 (2017). https://doi.org/10.1007/s41061-017-0125-8

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