Understanding the interfacial phenomena of a 4.7 V and 55 °C Li-ion battery with Li-rich layered oxide cathode and graphite anode and its correlation to high-energy cycling performance

Research progress of high-energy performance and interfacial phenomena of Li1.13Mn0.463Ni0.203Co0.203O2 cathode and graphite anode in a 55 °C full-cell under an aggressive charge cut-off voltage to 4.7 V (4.75 V vs. Li/Li+) is reported. Although anodic instability of conventional electrolyte is the...

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Published inJournal of power sources Vol. 323; pp. 220 - 230
Main Authors Pham, Hieu Quang, Hwang, Eui-Hyung, Kwon, Young-Gil, Song, Seung-Wan
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.08.2016
Subjects
4.7 V
Elevated temperature
High-energy Li-ion batteries
High-voltage electrolyte additive
Interfacial phenomena
Li-rich layered oxide cathode
Interfacial phenomena
4.7 V
Elevated temperature
High-voltage electrolyte additive
High-energy Li-ion batteries
Li-rich layered oxide cathode
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Abstract Research progress of high-energy performance and interfacial phenomena of Li1.13Mn0.463Ni0.203Co0.203O2 cathode and graphite anode in a 55 °C full-cell under an aggressive charge cut-off voltage to 4.7 V (4.75 V vs. Li/Li+) is reported. Although anodic instability of conventional electrolyte is the critical issue on high-voltage and high-temperature cell operation, interfacial phenomena and the solution to performance improvement have not been reported. Surface spectroscopic evidence revealed that structural degradation of both cathode and anode materials, instability of surface film at cathode, and metal-dissolution from cathode and -deposition at anode, and a rise of interfacial resistance with high-voltage cycling in 55 °C conventional electrolyte are resolved by the formation of a stable surface film with organic/inorganic mixtures at cathode and solid electrolyte interphase (SEI) at anode using blended additives of fluorinated linear carbonate and vinylene carbonate. As a result, significantly improved cycling stability of 77% capacity retention delivering 227−174 mAhg−1 after 50 cycles is obtained, corresponding to 819−609 Wh per kg of cathode active material. Interfacial stabilization approach would pave the way of controlling the performance and safety, and widening the practical application of Li-rich layered oxide cathode materials and high-voltage electrolyte materials in various high-energy density Li-ion batteries. [Display omitted] •Interfacial phenomena of Li-rich cathode and graphite anode in 4.7 V full-cell at 55 °C.•Interfacial stabilization by blended additives of fluorinated linear carbonate and VC.•Preserved surface structure and inhibited metal-dissolution.•Significantly improved cycling performance of interfacially stabilized full-cell.
AbstractList Research progress of high-energy performance and interfacial phenomena of Li1.13Mn0.463Ni0.203Co0.203O2 cathode and graphite anode in a 55 °C full-cell under an aggressive charge cut-off voltage to 4.7 V (4.75 V vs. Li/Li+) is reported. Although anodic instability of conventional electrolyte is the critical issue on high-voltage and high-temperature cell operation, interfacial phenomena and the solution to performance improvement have not been reported. Surface spectroscopic evidence revealed that structural degradation of both cathode and anode materials, instability of surface film at cathode, and metal-dissolution from cathode and -deposition at anode, and a rise of interfacial resistance with high-voltage cycling in 55 °C conventional electrolyte are resolved by the formation of a stable surface film with organic/inorganic mixtures at cathode and solid electrolyte interphase (SEI) at anode using blended additives of fluorinated linear carbonate and vinylene carbonate. As a result, significantly improved cycling stability of 77% capacity retention delivering 227−174 mAhg−1 after 50 cycles is obtained, corresponding to 819−609 Wh per kg of cathode active material. Interfacial stabilization approach would pave the way of controlling the performance and safety, and widening the practical application of Li-rich layered oxide cathode materials and high-voltage electrolyte materials in various high-energy density Li-ion batteries. [Display omitted] •Interfacial phenomena of Li-rich cathode and graphite anode in 4.7 V full-cell at 55 °C.•Interfacial stabilization by blended additives of fluorinated linear carbonate and VC.•Preserved surface structure and inhibited metal-dissolution.•Significantly improved cycling performance of interfacially stabilized full-cell.
Author Kwon, Young-Gil
Pham, Hieu Quang
Song, Seung-Wan
Hwang, Eui-Hyung
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Keywords Interfacial phenomena
4.7 V
Elevated temperature
High-voltage electrolyte additive
High-energy Li-ion batteries
Li-rich layered oxide cathode
Language English
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Snippet Research progress of high-energy performance and interfacial phenomena of Li1.13Mn0.463Ni0.203Co0.203O2 cathode and graphite anode in a 55 °C full-cell under...
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SubjectTerms 4.7 V
Elevated temperature
High-energy Li-ion batteries
High-voltage electrolyte additive
Interfacial phenomena
Li-rich layered oxide cathode
Title Understanding the interfacial phenomena of a 4.7 V and 55 °C Li-ion battery with Li-rich layered oxide cathode and graphite anode and its correlation to high-energy cycling performance
URI https://dx.doi.org/10.1016/j.jpowsour.2016.05.038
Volume 323
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