Accelerating Charge/Discharge of Lithium Iron Phosphate by Charge Mediation Reaction of Poly(dimethylfluoflavin-substituted norbornene)

Kan Hatakeyama-Sato; Choitsu Go; Takahiro Kaseyama; Takuji Yoshimoto; Kenichi Oyaizu

doi:10.1246/cl.220345

Accelerating Charge/Discharge of Lithium Iron Phosphate by Charge Mediation Reaction of Poly(dimethylfluoflavin-substituted norbornene)

Kan Hatakeyama-Sato^*, Choitsu Go, Takahiro Kaseyama, Takuji Yoshimoto, Kenichi Oyaizu

^*Corresponding author for this work

School of Advanced Science and Engineering

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

1 Citation (Scopus)

Abstract

Charging and discharging reactions of lithium metal oxides in lithium-ion batteries are accelerated by adding a catalytic amount of redox-active polymer, poly(dimethylfluoflavin-substituted norbornene). The potential difference between the polymer (E1/2 = 3.5 and 4.1V vs. Li/Li+) and metal oxides induce redox mediation reactions. Their heterogeneous charge-transfer processes are analyzed to estimate the acceleration effects of mediation.

Original language	English
Pages (from-to)	1040-1043
Number of pages	4
Journal	Chemistry Letters
Volume	51
Issue number	11
DOIs	https://doi.org/10.1246/cl.220345
Publication status	Published - 2022 Nov

Keywords

Lithium-ion battery
Redox mediation
Redox-active polymer

ASJC Scopus subject areas

Chemistry(all)

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10.1246/cl.220345

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title = "Accelerating Charge/Discharge of Lithium Iron Phosphate by Charge Mediation Reaction of Poly(dimethylfluoflavin-substituted norbornene)",

abstract = "Charging and discharging reactions of lithium metal oxides in lithium-ion batteries are accelerated by adding a catalytic amount of redox-active polymer, poly(dimethylfluoflavin-substituted norbornene). The potential difference between the polymer (E1/2 = 3.5 and 4.1V vs. Li/Li+) and metal oxides induce redox mediation reactions. Their heterogeneous charge-transfer processes are analyzed to estimate the acceleration effects of mediation.",

keywords = "Lithium-ion battery, Redox mediation, Redox-active polymer",

author = "Kan Hatakeyama-Sato and Choitsu Go and Takahiro Kaseyama and Takuji Yoshimoto and Kenichi Oyaizu",

note = "Funding Information: This work was partially supported by Grants-in-Aid for Scientific Research (Nos. 21H04695, 21H02017, 22H04623, and 20H05298) from MEXT, Japan. The work was partially supported by JST FOREST Program (Grant Number JPMJFR213V, Japan) and the Research Institute for Science and Engineering, Waseda University. Publisher Copyright: {\textcopyright} 2022 The Chemical Society of Japan.",

year = "2022",

month = nov,

doi = "10.1246/cl.220345",

language = "English",

volume = "51",

pages = "1040--1043",

journal = "Chemistry Letters",

issn = "0366-7022",

publisher = "Chemical Society of Japan",

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T1 - Accelerating Charge/Discharge of Lithium Iron Phosphate by Charge Mediation Reaction of Poly(dimethylfluoflavin-substituted norbornene)

AU - Hatakeyama-Sato, Kan

AU - Go, Choitsu

AU - Kaseyama, Takahiro

AU - Yoshimoto, Takuji

AU - Oyaizu, Kenichi

N1 - Funding Information: This work was partially supported by Grants-in-Aid for Scientific Research (Nos. 21H04695, 21H02017, 22H04623, and 20H05298) from MEXT, Japan. The work was partially supported by JST FOREST Program (Grant Number JPMJFR213V, Japan) and the Research Institute for Science and Engineering, Waseda University. Publisher Copyright: © 2022 The Chemical Society of Japan.

PY - 2022/11

Y1 - 2022/11

N2 - Charging and discharging reactions of lithium metal oxides in lithium-ion batteries are accelerated by adding a catalytic amount of redox-active polymer, poly(dimethylfluoflavin-substituted norbornene). The potential difference between the polymer (E1/2 = 3.5 and 4.1V vs. Li/Li+) and metal oxides induce redox mediation reactions. Their heterogeneous charge-transfer processes are analyzed to estimate the acceleration effects of mediation.

AB - Charging and discharging reactions of lithium metal oxides in lithium-ion batteries are accelerated by adding a catalytic amount of redox-active polymer, poly(dimethylfluoflavin-substituted norbornene). The potential difference between the polymer (E1/2 = 3.5 and 4.1V vs. Li/Li+) and metal oxides induce redox mediation reactions. Their heterogeneous charge-transfer processes are analyzed to estimate the acceleration effects of mediation.

KW - Lithium-ion battery

KW - Redox mediation

KW - Redox-active polymer

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M3 - Article

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JO - Chemistry Letters

JF - Chemistry Letters

IS - 11

ER -

Accelerating Charge/Discharge of Lithium Iron Phosphate by Charge Mediation Reaction of Poly(dimethylfluoflavin-substituted norbornene)

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Keywords

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