2017
DOI: 10.1002/er.3822
|View full text |Cite
|
Sign up to set email alerts
|

A brief overview of secondary zinc anode development: The key of improving zinc-based energy storage systems

Abstract: Summary Electricity will increasingly be produced from sources that are geographically decentralized and/or intermittent in their nature. In consequents, there is an urgent need to increase the storage of energy to guarantee the continuity of energy supply. Rechargeable zinc‐air battery is a promising technology due to the high theoretical energy density and the abundant and environmentally benign materials that are used. In the state of the art, the information about secondary zinc anode for rechargeable zinc… Show more

Help me understand this report

Search citation statements

Order By: Relevance

Paper Sections

Select...
2
1
1
1

Citation Types

0
97
0

Year Published

2018
2018
2022
2022

Publication Types

Select...
5
4

Relationship

0
9

Authors

Journals

citations
Cited by 127 publications
(97 citation statements)
references
References 143 publications
(214 reference statements)
0
97
0
Order By: Relevance
“…Because O 2 is not stored in rechargeable Zn–air batteries, Zn electrodes play a critical role in determining the total energy storage capacity of those batteries. High‐performance Zn electrodes are expected to have a high material utilization to assure large battery capacity and good reversibility . We start this section with an introduction of three phenomena that restrict the performance of Zn electrodes, followed by a detailed summary of recent studies devoted to managing them.…”
Section: Zn Electrodesmentioning
confidence: 99%
“…Because O 2 is not stored in rechargeable Zn–air batteries, Zn electrodes play a critical role in determining the total energy storage capacity of those batteries. High‐performance Zn electrodes are expected to have a high material utilization to assure large battery capacity and good reversibility . We start this section with an introduction of three phenomena that restrict the performance of Zn electrodes, followed by a detailed summary of recent studies devoted to managing them.…”
Section: Zn Electrodesmentioning
confidence: 99%
“…Zinc‐based batteries have been a focus of research since decades . Nowadays, while lithium‐ion batteries benchmark the performance characteristics for mobile applications, zinc–air batteries are still a possible alternative, e.g., stationary applications .…”
Section: Experimental Assembly Of Examined Zinc Anodes With Differentmentioning
confidence: 99%
“…[1,2] These desirable properties include high zinc metal specific capacity of 820 mA h g À 1 , [3] high electrical conductivity, [4] low cost, [5] non-toxicity, [6] and suitable redox potential (À 0.76 V vs. SHE) in aqueous electrolytes. [1,2] These desirable properties include high zinc metal specific capacity of 820 mA h g À 1 , [3] high electrical conductivity, [4] low cost, [5] non-toxicity, [6] and suitable redox potential (À 0.76 V vs. SHE) in aqueous electrolytes.…”
Section: Fabrication Of Zinc Anodes For Aqueous Lithium-ion Batteriesmentioning
confidence: 99%
“…[1,2] These desirable properties include high zinc metal specific capacity of 820 mA h g À 1 , [3] high electrical conductivity, [4] low cost, [5] non-toxicity, [6] and suitable redox potential (À 0.76 V vs. SHE) in aqueous electrolytes. [1] Many of the most commonly used methods to prepare porous zinc anode requires the use of polymeric binders, [1] which can reduce the amount of active zinc material, and also impede with electronic and ionic transfer. [1] Many of the most commonly used methods to prepare porous zinc anode requires the use of polymeric binders, [1] which can reduce the amount of active zinc material, and also impede with electronic and ionic transfer.…”
Section: Fabrication Of Zinc Anodes For Aqueous Lithium-ion Batteriesmentioning
confidence: 99%