The electrochemical behavior of an aluminum alloy anode for rechargeable Al-ion batteries using an AlCl3-urea liquid electrolyte

Chen Wang; Junfeng Li; Handong Jiao; Jiguo Tu; Shuqiang Jiao

doi:10.1039/c7ra05860h

The electrochemical behavior of an aluminum alloy anode for rechargeable Al-ion batteries using an AlCl₃-urea liquid electrolyte

Chen Wang, Junfeng Li, Handong Jiao, Jiguo Tu, Shuqiang Jiao^*

^*Corresponding author for this work

University of Science and Technology Beijing

Research output: Contribution to journal › Article › peer-review

44 Citations (Scopus)

Abstract

Due to its characteristics of high capacity, low cost, being non-flammable, and involving a three-electron-redox reaction, the aluminum rechargeable battery has received wide attention. Because of these advantages, we focus on a low-cost aluminum alloy anode and detect the discharge/charge reaction mechanism in the aluminum chloride-urea liquid electrolyte at 110-130 °C. The discharge voltage of the battery is about 1.9 V and 1.6 V, and at the current density of 100 mA g^-1 the cell can produce a specific capacity of ∼94 mA h g^-1. Compared to the pure aluminum anode, the system has a promising future for high efficiency, low-cost energy storage devices.

Original language	English
Pages (from-to)	32288-32293
Number of pages	6
Journal	RSC Advances
Volume	7
Issue number	51
DOIs	https://doi.org/10.1039/c7ra05860h
Publication status	Published - 2017
Externally published	Yes

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title = "The electrochemical behavior of an aluminum alloy anode for rechargeable Al-ion batteries using an AlCl3-urea liquid electrolyte",

abstract = "Due to its characteristics of high capacity, low cost, being non-flammable, and involving a three-electron-redox reaction, the aluminum rechargeable battery has received wide attention. Because of these advantages, we focus on a low-cost aluminum alloy anode and detect the discharge/charge reaction mechanism in the aluminum chloride-urea liquid electrolyte at 110-130 °C. The discharge voltage of the battery is about 1.9 V and 1.6 V, and at the current density of 100 mA g-1 the cell can produce a specific capacity of ∼94 mA h g-1. Compared to the pure aluminum anode, the system has a promising future for high efficiency, low-cost energy storage devices.",

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AU - Wang, Chen

AU - Li, Junfeng

AU - Jiao, Handong

AU - Tu, Jiguo

AU - Jiao, Shuqiang

PY - 2017

Y1 - 2017

N2 - Due to its characteristics of high capacity, low cost, being non-flammable, and involving a three-electron-redox reaction, the aluminum rechargeable battery has received wide attention. Because of these advantages, we focus on a low-cost aluminum alloy anode and detect the discharge/charge reaction mechanism in the aluminum chloride-urea liquid electrolyte at 110-130 °C. The discharge voltage of the battery is about 1.9 V and 1.6 V, and at the current density of 100 mA g-1 the cell can produce a specific capacity of ∼94 mA h g-1. Compared to the pure aluminum anode, the system has a promising future for high efficiency, low-cost energy storage devices.

AB - Due to its characteristics of high capacity, low cost, being non-flammable, and involving a three-electron-redox reaction, the aluminum rechargeable battery has received wide attention. Because of these advantages, we focus on a low-cost aluminum alloy anode and detect the discharge/charge reaction mechanism in the aluminum chloride-urea liquid electrolyte at 110-130 °C. The discharge voltage of the battery is about 1.9 V and 1.6 V, and at the current density of 100 mA g-1 the cell can produce a specific capacity of ∼94 mA h g-1. Compared to the pure aluminum anode, the system has a promising future for high efficiency, low-cost energy storage devices.

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The electrochemical behavior of an aluminum alloy anode for rechargeable Al-ion batteries using an AlCl₃-urea liquid electrolyte

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