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Rechargeable Concrete Battery

Emma Qingnan Zhang / Luping Tang

A rechargeable cement-based battery was developed, with an average energy density of 7 Wh/m² (or 0.8 Wh/L) during six charge/discharge cycles. Iron (Fe) and zinc (Zn) were selected as anodes, and nickel-based (Ni) oxides as cathodes. The conductivity of cement-based electrolytes was modified by adding short carbon fibers (CF). The cement-based electrodes were produced by two methods: powder-mixing and metal-coating. Different combinations of cells were tested. The results showed that the best performance of the rechargeable battery was the Ni–Fe battery, produced by the metal-coating method.

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Rechargeable Concrete Battery

Emma Qingnan Zhang / Luping Tang

A rechargeable cement-based battery was developed, with an average energy density of 7 Wh/m² (or 0.8 Wh/L) during six charge/discharge cycles. Iron (Fe) and zinc (Zn) were selected as anodes, and nickel-based (Ni) oxides as cathodes. The conductivity of cement-based electrolytes was modified by adding short carbon fibers (CF). The cement-based electrodes were produced by two methods: powder-mixing and metal-coating. Different combinations of cells were tested. The results showed that the best performance of the rechargeable battery was the Ni–Fe battery, produced by the metal-coating method.

Rechargeable Concrete Battery

Emma Qingnan Zhang / Luping Tang

A rechargeable cement-based battery was developed, with an average energy density of 7 Wh/m² (or 0.8 Wh/L) during six charge/discharge cycles. Iron (Fe) and zinc (Zn) were selected as anodes, and nickel-based (Ni) oxides as cathodes. The conductivity of cement-based electrolytes was modified by adding short carbon fibers (CF). The cement-based electrodes were produced by two methods: powder-mixing and metal-coating. Different combinations of cells were tested. The results showed that the best performance of the rechargeable battery was the Ni–Fe battery, produced by the metal-coating method.

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Title:

Rechargeable Concrete Battery

Contributors:

Emma Qingnan Zhang (author) / Luping Tang (author)

Published in:

Buildings, Vol 11, Iss 3, p 103 (2021)

Publication date:

2021

ISSN:

DOI:

https://doi.org/10.3390/buildings11030103

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

Unknown

Keywords:

concrete battery , rechargeable , carbon fiber , conductive cementitious material , electroplating , energy storage , Building construction , TH1-9745

Metadata by DOAJ is licensed under CC BY-SA 1.0

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