High energy density rechargeable metal-free seawater batteries: a phosphorus/carbon composite as a promising anode material

• Published in: Journal of materials chemistry. A, Materials for energy and sustainability Vol. 6; no. 7; pp. 3046 - 3054
• Main Authors: Kim, Yongil, Hwang, Soo Min, Yu, Hyein, Kim, Youngsik
• Format: Journal Article
• Language: English
• Published: Cambridge Royal Society of Chemistry 2018
• Subjects: Alloy systems; Amorphous materials; Anodes; batteries; Carbon; Cathodes; Composite materials; electricity; Electricity consumption; Electrochemistry; Electrode materials; Energy conversion; Energy storage; Flux density; Ions; Lithium; Lithium ions; Phosphorus; Rechargeable batteries; Seawater; Sodium; Sodium-ion batteries; specific energy
• ISSN: 2050-7488; 2050-7496; 2050-7496
• DOI: 10.1039/C7TA10668H

A new energy conversion and storage system, named the ‘seawater battery’, has recently been a subject of research in the field of electrochemistry. Using natural seawater as the catholyte in an open-structured cathode, the battery stores sodium (Na) ions from the seawater on the anode side during charging, and then delivers electricity by discharging on demand. Herein, we report an amorphous red phosphorus/carbon composite anode material which was successfully employed as the anode of a seawater battery. It exhibited a stable cycling performance with a high reversible capacity exceeding 920 mA h g composite −1 with a coulombic efficiency of more than 92% over 80 cycles, as well as good rate capabilities. In terms of the full-cell performance of lithium ion and sodium ion batteries, the seawater batteries with the amorphous red phosphorus/carbon composite anode exhibited the highest reversible capacity and specific energy. These results indicate that the use of an open-structured cathode system, which provides the anode with an unlimited supply of Na ions, would allow a seawater battery to overcome the limitations associated with the high-capacity alloying reaction-based anodes used in conventional batteries with a closed system.