Li-air batteries are considered one of the future systems of choice for massive energy storage in automotive and smart grids. In this chapter, we will describe the cell designs developed up to now, with emphasis on aqueous and nonaqueous aprotic electrolyte architectures. Then, we will focus the attention on the cathode compartment, and the carbon-based nanomaterials (including nanotubes and graphene) employed will be critically discussed.

Capsoni, D., Bini, M., Ferrari, S., Mustarelli, P. (2015). Lithium-Air Batteries Based on Carbon Nanomaterials. In Carbon Nanomaterials for Advanced Energy Systems (pp. 385-405). Wiley Blackwell [10.1002/9781118980989.ch12].

Lithium-Air Batteries Based on Carbon Nanomaterials

Mustarelli, P
2015

Abstract

Li-air batteries are considered one of the future systems of choice for massive energy storage in automotive and smart grids. In this chapter, we will describe the cell designs developed up to now, with emphasis on aqueous and nonaqueous aprotic electrolyte architectures. Then, we will focus the attention on the cathode compartment, and the carbon-based nanomaterials (including nanotubes and graphene) employed will be critically discussed.
Capitolo o saggio
Batteries; Carbon; Cathode; Lithium-air;
English
Carbon Nanomaterials for Advanced Energy Systems
2015
9781118580783
Wiley Blackwell
385
405
Capsoni, D., Bini, M., Ferrari, S., Mustarelli, P. (2015). Lithium-Air Batteries Based on Carbon Nanomaterials. In Carbon Nanomaterials for Advanced Energy Systems (pp. 385-405). Wiley Blackwell [10.1002/9781118980989.ch12].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/219531
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