Nano-scaled hydrophobic confinement of aqueous electrolyte by a nonionic amphiphilic polymer for long-lasting and wide-temperature Zn-based energy storage

Niu, Ben; Li, Zhengang; Luo, Die; Ma, Xinyu; Yang, Qingshan; Liu, Yue; Yu, Xiaoyu; He, Xianru; Qiao, Yu; Wang, Xin

doi:10.1039/d2ee04023a

articleEnergy & Environmental ScienceJan 1, 2023Closed access

Nano-scaled hydrophobic confinement of aqueous electrolyte by a nonionic amphiphilic polymer for long-lasting and wide-temperature Zn-based energy storage

BNBen NiuZLZhengang Li DLDie Luo XMXinyu Ma QYQingshan Yang

Southwest Petroleum University · Songshan Lake Materials Laboratory · +1 more institution

Indexed incrossref

Abstract

Trace addition of a hydrophilically tuned nonionic amphiphilic polymer additive enables hydrophobic confinement of aqueous electrolyte that considerably prolongs the cycle life of aqueous Zn-ion devices and widens the temperature of operation.

Citation impact

191

total citations

FWCI: 23.80
Percentile: 100%
References: 69

Citations per year

Authors

10

BN
Ben Niu
Southwest Petroleum University, Songshan Lake Materials Laboratory
ZL
Zhengang Li
Xiamen University
DL
Die Luo
Southwest Petroleum University
XM
Xinyu Ma
Southwest Petroleum University
QY
Qingshan Yang
Southwest Petroleum University

Topics & keywords

Topics

Keywords

Aqueous solution
Electrolyte
Amphiphile
Polymer
Materials science
Nano-
Chemical engineering
Energy storage

UN Sustainable Development Goals

Affordable and clean energy

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