Multi-H-bonded self-assembled superstructures for ultrahigh-capacity and ultralong-life all-organic ammonium-ion batteries

Liu, Pingxuan; Song, Ziyang; Huang, Qi; Miao, Ling; Lv, Yaokang; Gan, Lihua; Liu, Mingxian

doi:10.1039/d5ee00823a

articleEnergy & Environmental ScienceJan 1, 2025HYBRID OA

Multi-H-bonded self-assembled superstructures for ultrahigh-capacity and ultralong-life all-organic ammonium-ion batteries

PLPingxuan Liu ZSZiyang Song QHQi Huang LMLing Miao YLYaokang Lv

Tongji University · Primary Source · +2 more institutions

Indexed incrossref

Abstract

Multi-H-bonded self-assembled organic superstructures enable state-of-the-art all-organic ammonium-ion batteries with a record capacity (213 mA h g −1 ) and unprecedented stability (100 000 cycles).

Citation impact

total citations

FWCI: 22.87
Percentile: 100%
References: 64

Citations per year

Authors

PL
Pingxuan LiuCorresponding
Tongji University
ZS
Ziyang Song
Tongji University
QH
Qi Huang
Primary Source
LM
Ling Miao
Tongji University
YL
Yaokang Lv
Zhejiang University of Technology

Topics & keywords

Topics

Supramolecular Self-Assembly in Materials99%
Ionic liquids properties and applications99%
Advancements in Battery Materials99%

Keywords

Materials science
Ion
Nanotechnology
Ammonium
Chemical engineering
Chemistry
Organic chemistry
Engineering

No related works found for this paper.

Funding

NN
National Natural Science Foundation of China
Awards: 2023-3, 22172111, 22272118, 22309134, 19DZ2271500
CP
China Postdoctoral Science Foundation
Award: 2022M712402
SA
Science and Technology Commission of Shanghai Municipality
Awards: 23YF1449200, 19DZ2271500, 20ZR1460300, 22ZR1464100
SR
Shanghai Rising-Star Program
Awards: 23YF1449200, 19DZ2271500
FR
Fundamental Research Funds for the Central Universities
Awards: 19DZ2271500, 2023-3-YB-07
SA
Science and Technology Program of Zhejiang Province
Award: 2022C01182