Improving the Cycling Performance of Lithium-Ion Battery Si/Graphite Anodes Using a Soluble Polyimide Binder

Jeonghun Oh; Dahee Jin; Kyuman Kim; Danoh Song; Yong Min Lee; Myung Hyun Ryou

doi:10.1021/acsomega.7b01365

Improving the Cycling Performance of Lithium-Ion Battery Si/Graphite Anodes Using a Soluble Polyimide Binder

Jeonghun Oh, Dahee Jin, Kyuman Kim, Danoh Song, Yong Min Lee, Myung Hyun Ryou

Department of Energy and Science and Engineering

Hanbat National University

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

50 Scopus citations

Abstract

Herein, we improved the performance of Si/graphite (Si/C) composite anodes by introducing a highly adhesive co-polyimide (P84) binder and investigated the relationship between their electrochemical and adhesion properties using the 90° peel test and a surface and interfacial cutting analysis system. Compared to those of conventional poly(vinylidene fluoride) (PVdF)-based electrodes, the cycling performance and rate capability of P84-based Si/C anodes were improved by 47.0% (372 vs 547 mAh g^-1 after 100 cycles at a 60 mA g^-1 discharge condition) and 33.4% (359 vs 479 mAh g^-1 after 70 cycles at a 3.0 A g^-1 discharge condition), respectively. Importantly, the P84-based electrodes exhibited less pronounced morphological changes and a smaller total cell resistance after cycling than the PVdF-based ones, also showing better interlayer adhesion (F_mid) and interfacial adhesion to Cu current collectors (F_inter).

Original language	English
Pages (from-to)	8438-8444
Number of pages	7
Journal	ACS Omega
Volume	2
Issue number	11
DOIs	https://doi.org/10.1021/acsomega.7b01365
State	Published - 30 Nov 2017

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© 2017 American Chemical Society.

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title = "Improving the Cycling Performance of Lithium-Ion Battery Si/Graphite Anodes Using a Soluble Polyimide Binder",

abstract = "Herein, we improved the performance of Si/graphite (Si/C) composite anodes by introducing a highly adhesive co-polyimide (P84) binder and investigated the relationship between their electrochemical and adhesion properties using the 90° peel test and a surface and interfacial cutting analysis system. Compared to those of conventional poly(vinylidene fluoride) (PVdF)-based electrodes, the cycling performance and rate capability of P84-based Si/C anodes were improved by 47.0\% (372 vs 547 mAh g-1 after 100 cycles at a 60 mA g-1 discharge condition) and 33.4\% (359 vs 479 mAh g-1 after 70 cycles at a 3.0 A g-1 discharge condition), respectively. Importantly, the P84-based electrodes exhibited less pronounced morphological changes and a smaller total cell resistance after cycling than the PVdF-based ones, also showing better interlayer adhesion (Fmid) and interfacial adhesion to Cu current collectors (Finter).",

author = "Jeonghun Oh and Dahee Jin and Kyuman Kim and Danoh Song and Lee, \{Yong Min\} and Ryou, \{Myung Hyun\}",

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AU - Oh, Jeonghun

AU - Jin, Dahee

AU - Kim, Kyuman

AU - Song, Danoh

AU - Lee, Yong Min

AU - Ryou, Myung Hyun

PY - 2017/11/30

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N2 - Herein, we improved the performance of Si/graphite (Si/C) composite anodes by introducing a highly adhesive co-polyimide (P84) binder and investigated the relationship between their electrochemical and adhesion properties using the 90° peel test and a surface and interfacial cutting analysis system. Compared to those of conventional poly(vinylidene fluoride) (PVdF)-based electrodes, the cycling performance and rate capability of P84-based Si/C anodes were improved by 47.0% (372 vs 547 mAh g-1 after 100 cycles at a 60 mA g-1 discharge condition) and 33.4% (359 vs 479 mAh g-1 after 70 cycles at a 3.0 A g-1 discharge condition), respectively. Importantly, the P84-based electrodes exhibited less pronounced morphological changes and a smaller total cell resistance after cycling than the PVdF-based ones, also showing better interlayer adhesion (Fmid) and interfacial adhesion to Cu current collectors (Finter).

AB - Herein, we improved the performance of Si/graphite (Si/C) composite anodes by introducing a highly adhesive co-polyimide (P84) binder and investigated the relationship between their electrochemical and adhesion properties using the 90° peel test and a surface and interfacial cutting analysis system. Compared to those of conventional poly(vinylidene fluoride) (PVdF)-based electrodes, the cycling performance and rate capability of P84-based Si/C anodes were improved by 47.0% (372 vs 547 mAh g-1 after 100 cycles at a 60 mA g-1 discharge condition) and 33.4% (359 vs 479 mAh g-1 after 70 cycles at a 3.0 A g-1 discharge condition), respectively. Importantly, the P84-based electrodes exhibited less pronounced morphological changes and a smaller total cell resistance after cycling than the PVdF-based ones, also showing better interlayer adhesion (Fmid) and interfacial adhesion to Cu current collectors (Finter).

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Improving the Cycling Performance of Lithium-Ion Battery Si/Graphite Anodes Using a Soluble Polyimide Binder

Abstract

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