High Rate Oxygen Reduction in Non-aqueous Electrolytes with the Addition of Perfluorinated Additives

The discharge rate capability of Li–air batteries is substantially increased by using perfluorinated compounds as oxygen carriers. The solubility of oxygen in a non-aqueous electrolyte can be significantly increased by the introduction of such compounds, which leads to the increase in the diffusion-limited current of oxygen reduction on the gas diffusion electrode in a Li–air battery. The perfluorinated compound is found to be stable within the electrochemical window of the electrolyte. A powder microelectrode and a rotating disk electrode were used to study the gas diffusion-limited current together with a rotating disk electrode. A 5 mA cm−2 discharge rate is demonstrated in a lab Li–O2cell.

[1]  Yair Ein-Eli,et al.  Review on Liair batteriesOpportunities, limitations and perspective , 2011 .

[2]  Ben Wang,et al.  Lithium–Air Batteries Using SWNT/CNF Buckypapers as Air Electrodes , 2010 .

[3]  B. McCloskey,et al.  Lithium−Air Battery: Promise and Challenges , 2010 .

[4]  Wu Xu,et al.  High Capacity Pouch-Type Li–Air Batteries , 2010 .

[5]  Sanjeev Mukerjee,et al.  Influence of Nonaqueous Solvents on the Electrochemistry of Oxygen in the Rechargeable Lithium−Air Battery , 2010 .

[6]  Deyang Qu,et al.  Investigation of the Gas-Diffusion-Electrode Used as Lithium/Air Cathode in Non-aqueous Electrolyte and the Importance of Carbon Material Porosity , 2010 .

[7]  J. Nørskov,et al.  Communications: Elementary oxygen electrode reactions in the aprotic Li-air battery. , 2010, The Journal of chemical physics.

[8]  Jeffrey Read,et al.  Discharge characteristic of a non-aqueous electrolyte Li/O2 battery , 2010 .

[9]  Wu Xu,et al.  Effects of Nonaqueous Electrolytes on the Performance of Lithium/Air Batteries , 2010 .

[10]  Sanjeev Mukerjee,et al.  Elucidating the Mechanism of Oxygen Reduction for Lithium-Air Battery Applications , 2009 .

[11]  Wu Xu,et al.  Optimization of Nonaqueous Electrolytes for Primary Lithium/Air Batteries Operated in Ambient Environment , 2009 .

[12]  J. Read Ether-Based Electrolytes for the Lithium/Oxygen Organic Electrolyte Battery , 2006 .

[13]  Takashi Kuboki,et al.  Lithium-air batteries using hydrophobic room temperature ionic liquid electrolyte , 2005 .

[14]  C. Cha,et al.  Electrochemistry of powder material studied by means of the cavity microelectrode (CME) , 2001 .

[15]  J. Riess,et al.  Perfluoro compounds as blood substitutes. , 1978, Angewandte Chemie.

[16]  W. Baird,et al.  Solubility of oxygen in selected organic solvents , 1972 .