Permeable characteristics of surface film deposited on LiMn2O4 positive electrode revealed by redox-active indicator

Hyun seung Kim; Jin Hyuk Yang; Ji Woo Han; Le Thi Thao; Ji Heon Ryu; Seung M. Oh; Ki Jae Kim

doi:10.1186/s40580-021-00272-9

Permeable characteristics of surface film deposited on LiMn₂O₄ positive electrode revealed by redox-active indicator

Hyun seung Kim
, Jin Hyuk Yang
, Ji Woo Han
, Le Thi Thao
, Ji Heon Ryu
, Seung M. Oh
, Ki Jae Kim

Seoul National University
Korea Electronics Technology Institute
Konkuk University
Tech University of Korea

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

Herein, the ferrocene redox indicator-based surface film characteristics of spinel lithium manganese oxide (LMO) were evaluated. The pre-cycling of spinel LMO generated a film on the LMO surface. The surface film deposited on LMO surface suppresses further electrolyte decomposition, while the penetration of approximately 0.7 nm-sized redox indicator is not prevented. The facile self-discharge of LMO and regeneration current from the ferrocenium molecule was observed from the redox indicator in a specifically designed four-electrode cell. From this electrochemical behavior, a small-sized HF molecule attack on the LMO surface through a carbonate-based electrolyte-derived film is defined; hence, the prevention of small-sized molecules into the deposited surface film is crucial for the enhancement of LiMn₂O₄-based lithium-ion batteries.

Original language	English
Article number	21
Journal	Nano Convergence
Volume	8
Issue number	1
DOIs	https://doi.org/10.1186/s40580-021-00272-9
State	Published - Dec 2021
Externally published	Yes

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy

Keywords

Electrolytes
Lithium-ion batteries
Permeable characteristics
Positive electrode
Surface film

Access to Document

10.1186/s40580-021-00272-9

Cite this

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title = "Permeable characteristics of surface film deposited on LiMn2O4 positive electrode revealed by redox-active indicator",

abstract = "Herein, the ferrocene redox indicator-based surface film characteristics of spinel lithium manganese oxide (LMO) were evaluated. The pre-cycling of spinel LMO generated a film on the LMO surface. The surface film deposited on LMO surface suppresses further electrolyte decomposition, while the penetration of approximately 0.7 nm-sized redox indicator is not prevented. The facile self-discharge of LMO and regeneration current from the ferrocenium molecule was observed from the redox indicator in a specifically designed four-electrode cell. From this electrochemical behavior, a small-sized HF molecule attack on the LMO surface through a carbonate-based electrolyte-derived film is defined; hence, the prevention of small-sized molecules into the deposited surface film is crucial for the enhancement of LiMn2O4-based lithium-ion batteries.",

keywords = "Electrolytes, Lithium-ion batteries, Permeable characteristics, Positive electrode, Surface film",

author = "Kim, \{Hyun seung\} and Yang, \{Jin Hyuk\} and Han, \{Ji Woo\} and Thao, \{Le Thi\} and Ryu, \{Ji Heon\} and Oh, \{Seung M.\} and Kim, \{Ki Jae\}",

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month = dec,

doi = "10.1186/s40580-021-00272-9",

language = "English",

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T1 - Permeable characteristics of surface film deposited on LiMn2O4 positive electrode revealed by redox-active indicator

AU - Kim, Hyun seung

AU - Yang, Jin Hyuk

AU - Han, Ji Woo

AU - Thao, Le Thi

AU - Ryu, Ji Heon

AU - Oh, Seung M.

AU - Kim, Ki Jae

PY - 2021/12

Y1 - 2021/12

N2 - Herein, the ferrocene redox indicator-based surface film characteristics of spinel lithium manganese oxide (LMO) were evaluated. The pre-cycling of spinel LMO generated a film on the LMO surface. The surface film deposited on LMO surface suppresses further electrolyte decomposition, while the penetration of approximately 0.7 nm-sized redox indicator is not prevented. The facile self-discharge of LMO and regeneration current from the ferrocenium molecule was observed from the redox indicator in a specifically designed four-electrode cell. From this electrochemical behavior, a small-sized HF molecule attack on the LMO surface through a carbonate-based electrolyte-derived film is defined; hence, the prevention of small-sized molecules into the deposited surface film is crucial for the enhancement of LiMn2O4-based lithium-ion batteries.

AB - Herein, the ferrocene redox indicator-based surface film characteristics of spinel lithium manganese oxide (LMO) were evaluated. The pre-cycling of spinel LMO generated a film on the LMO surface. The surface film deposited on LMO surface suppresses further electrolyte decomposition, while the penetration of approximately 0.7 nm-sized redox indicator is not prevented. The facile self-discharge of LMO and regeneration current from the ferrocenium molecule was observed from the redox indicator in a specifically designed four-electrode cell. From this electrochemical behavior, a small-sized HF molecule attack on the LMO surface through a carbonate-based electrolyte-derived film is defined; hence, the prevention of small-sized molecules into the deposited surface film is crucial for the enhancement of LiMn2O4-based lithium-ion batteries.

KW - Electrolytes

KW - Lithium-ion batteries

KW - Permeable characteristics

KW - Positive electrode

KW - Surface film

UR - https://www.scopus.com/pages/publications/85109919488

U2 - 10.1186/s40580-021-00272-9

DO - 10.1186/s40580-021-00272-9

M3 - Article

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