化学
电解质
电化学
锂(药物)
溶剂
碳酸丙烯酯
无机化学
盐(化学)
循环伏安法
乙腈
电位滴定法
电池(电)
二甲基亚砜
有机化学
电极
离子
医学
功率(物理)
物理化学
内分泌学
量子力学
物理
作者
Vyacheslav S. Bryantsev,Jasim Uddin,Vincent Giordani,Wesley Walker,Dan Addison,Gregory V. Chase
摘要
Solvent plays a major role in determining the nature of discharge products and the extent of rechargeability of the nonaqueous lithium-air (oxygen) battery. Here we investigate chemical stability for a number of aprotic solvents against superoxide, including N,N-dialkyl amides, aliphatic and aromatic nitriles, oxygenated phosphorus (V) compounds, substituted 2-oxazolidinones, and fluorinated ethers. The free energy barriers for nucleophilic attack by superoxide and the C-H acidity constants in dimethyl sulfoxide are reported, which provide a theoretical framework for computational screening of stable solvents for Li-air batteries. Theoretical results are complemented by cyclic voltammetry to study the electrochemical reversibility of the O2/O2− couple containing tetrabutylammonium salt and GCMS measurements to monitor solvent stability in the presence of KO2 and a Li salt. Excellent agreement among all quantum chemical, electrochemical, and chemical methods has been obtained in evaluating solvent stability against superoxide. The combined theoretical and experimental methodology provides a comprehensive testing ground to identify electrolyte solvents stable in the air cathode. Based upon this knowledge we report on the use of an amide-based electrolyte for rechargeable oxygen electrodes in Li-O2 secondary cells.
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