A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Aqueous Rechargeable Metal‐Ion Batteries Working at Subzero Temperatures
Aqueous rechargeable metal‐ion batteries (ARMBs) represent one of the current research frontiers due to their low cost, high safety, and other unique features. Evolving to a practically useful device, the ARMBs must be adaptable to various ambient, especially the cold weather. While much effort has been made on organic electrolyte batteries operating at low temperatures, the study on low‐temperature ARMBs is still in its infancy. The challenge mainly comes from water freezing at subzero temperatures, resulting in dramatically retarded kinetics. Here, the freezing behavior of water and its effects on subzero performances of ARMBs are first discussed. Then all strategies used to enhance subzero temperature performances of ARMBs by associating them with battery kinetics are summarized. The subzero temperature performances of ARMBs and organic electrolyte batteries are compared. The final section presents potential directions for further improvements and future perspectives of this thriving field.
Aqueous Rechargeable Metal‐Ion Batteries Working at Subzero Temperatures
Aqueous rechargeable metal‐ion batteries (ARMBs) represent one of the current research frontiers due to their low cost, high safety, and other unique features. Evolving to a practically useful device, the ARMBs must be adaptable to various ambient, especially the cold weather. While much effort has been made on organic electrolyte batteries operating at low temperatures, the study on low‐temperature ARMBs is still in its infancy. The challenge mainly comes from water freezing at subzero temperatures, resulting in dramatically retarded kinetics. Here, the freezing behavior of water and its effects on subzero performances of ARMBs are first discussed. Then all strategies used to enhance subzero temperature performances of ARMBs by associating them with battery kinetics are summarized. The subzero temperature performances of ARMBs and organic electrolyte batteries are compared. The final section presents potential directions for further improvements and future perspectives of this thriving field.
Aqueous Rechargeable Metal‐Ion Batteries Working at Subzero Temperatures
Zhao, Yuwei (author) / Chen, Ze (author) / Mo, Funian (author) / Wang, Donghong (author) / Guo, Ying (author) / Liu, Zhuoxin (author) / Li, Xinliang (author) / Li, Qing (author) / Liang, Guojin (author) / Zhi, Chunyi (author)
Advanced Science ; 8
2021-01-01
13 pages
Article (Journal)
Electronic Resource
English
Mass concrete placement under subzero temperatures
| Springer Verlag | 1977
Mass concrete placement under subzero temperatures
| Online Contents | 1977
Flowthrough Rockfill Embankments: Behavior in Subzero Temperatures
| Online Contents | 1995
Flowthrough Rockfill Embankments: Behavior in Subzero Temperatures
| British Library Online Contents | 1995