Wiley
Angewandte Chemie - International Edition
volume 57 issue 8 pages 2096-2100

A 3D Nanostructured Hydrogel‐Framework‐Derived High‐Performance Composite Polymer Lithium‐Ion Electrolyte

Publication typeJournal Article
Publication date2018-01-16
Wiley
scimago Q1
wos Q1
SJR5.550
CiteScore27.6
Impact factor16.9
ISSN14337851, 15213773
General Chemistry
Catalysis
Abstract

Solid‐state electrolytes have emerged as a promising alternative to existing liquid electrolytes for next generation Li‐ion batteries for better safety and stability. Of various types of solid electrolytes, composite polymer electrolytes exhibit acceptable Li‐ion conductivity due to the interaction between nanofillers and polymer. Nevertheless, the agglomeration of nanofillers at high concentration has been a major obstacle for improving Li‐ion conductivity. In this study, we designed a three‐dimensional (3D) nanostructured hydrogel‐derived Li0.35La0.55TiO3 (LLTO) framework, which was used as a 3D nanofiller for high‐performance composite polymer Li‐ion electrolyte. The systematic percolation study revealed that the pre‐percolating structure of LLTO framework improved Li‐ion conductivity to 8.8×10−5 S cm−1 at room temperature.

Found 
Found 
3 citations
Srivastava Neelam
🥼 🤝
PhD in Physics and Mathematics, professor
41 publications 817 citations 2 reviews
h-index: 16
Banaras Hindu University
Banaras Hindu University
2 citations
Hanif Muhammad Bilal
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h-index: 32
Comenius University Bratislava
Comenius University Bratislava
1 citation
Voropaeva Daria
PhD in Chemistry
33 publications 506 citations 18 reviews
h-index: 13
Kurnakov Institute of General and Inorganic Chemistry of the Russian Academy of Sciences
Kurnakov Institute of General and Inorganic Chemistry of the Russian Academy of Sciences
Research interests
Green technologies
Lithium-ion batteries
Membrane materials
Sodium-ion batteries
1 citation
Tripathi Manoj
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h-index: 12
Jaypee Institute of Information Technology
Jaypee Institute of Information Technology
1 citation
Chun-Chen Yang
293 publications 8 997 citations 72 reviews
h-index: 52
Ming Chi University of Technology
Ming Chi University of Technology
Chang Gung University
Chang Gung University
Chang Gung University of Science and Technology
Chang Gung University of Science and Technology

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GOST Copy
Bae J. et al. A 3D Nanostructured Hydrogel‐Framework‐Derived High‐Performance Composite Polymer Lithium‐Ion Electrolyte // Angewandte Chemie - International Edition. 2018. Vol. 57. No. 8. pp. 2096-2100.
GOST all authors (up to 50) Copy
Bae J., Li Y., Zhang J., Zhou X., Zhao F., Shi Y., Goodenough J., Yu G. A 3D Nanostructured Hydrogel‐Framework‐Derived High‐Performance Composite Polymer Lithium‐Ion Electrolyte // Angewandte Chemie - International Edition. 2018. Vol. 57. No. 8. pp. 2096-2100.
RIS |
Cite this
RIS Copy
TY - JOUR
DO - 10.1002/anie.201710841
UR - https://onlinelibrary.wiley.com/doi/10.1002/anie.201710841
TI - A 3D Nanostructured Hydrogel‐Framework‐Derived High‐Performance Composite Polymer Lithium‐Ion Electrolyte
T2 - Angewandte Chemie - International Edition
AU - Bae, Jiwoong
AU - Li, Yutao
AU - Zhang, Jun
AU - Zhou, Xingyi
AU - Zhao, Fei
AU - Shi, Ye
AU - Goodenough, John
AU - Yu, Guihua
PY - 2018
DA - 2018/01/16
PB - Wiley
SP - 2096-2100
IS - 8
VL - 57
PMID - 29314472
SN - 1433-7851
SN - 1521-3773
ER -
BibTex |
Cite this
BibTex (up to 50 authors) Copy
@article{2018_Bae,
author = {Jiwoong Bae and Yutao Li and Jun Zhang and Xingyi Zhou and Fei Zhao and Ye Shi and John Goodenough and Guihua Yu},
title = {A 3D Nanostructured Hydrogel‐Framework‐Derived High‐Performance Composite Polymer Lithium‐Ion Electrolyte},
journal = {Angewandte Chemie - International Edition},
year = {2018},
volume = {57},
publisher = {Wiley},
month = {jan},
url = {https://onlinelibrary.wiley.com/doi/10.1002/anie.201710841},
number = {8},
pages = {2096--2100},
doi = {10.1002/anie.201710841}
}
MLA
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MLA Copy
Bae, Jiwoong, et al. “A 3D Nanostructured Hydrogel‐Framework‐Derived High‐Performance Composite Polymer Lithium‐Ion Electrolyte.” Angewandte Chemie - International Edition, vol. 57, no. 8, Jan. 2018, pp. 2096-2100. https://onlinelibrary.wiley.com/doi/10.1002/anie.201710841.
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