Synthesis and characterization of empty silicon clathrates for anode applications in Li-ion batteries

Kwai S. Chan; Michael A. Miller; Carol Ellis-Terrell; Candace Chan

doi:10.1557/adv.2016.434

Synthesis and characterization of empty silicon clathrates for anode applications in Li-ion batteries

Kwai S. Chan, Michael A. Miller, Carol Ellis-Terrell, Candace Chan

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Abstract

Several processing methods were developed and evaluated for synthesizing empty silicon clathrates. A solution synthesis method based on the Hofmann-elimination oxidation reaction was successfully utilized to produce 20 mg of empty Si46. Half-cells using the Si46 electrodes were successfully cycled for 1000 cycles at rate of 5.3C. The capacity of the Si46 electrode in long-term tests was 675 mAh/g at the 4th cycle, but increased to 809 mAh/g at 50 cycles. The corresponding Coulombic efficiency was better than 99%. The capacity dropped from 809 to 553 mAh/g after 1000 cycles while maintaining a 99% Coulombic efficiency. In comparison, a Ba8Al8Si38 electrode could be cycled for about 200 cycles with a lower capacity and Coulombic efficiency. Potential applications of empty silicon clathrates as anode materials in Li-ion batteries are discussed.

Original language	English (US)
Pages (from-to)	3043-3048
Number of pages	6
Journal	MRS Advances
Volume	1
Issue number	45
DOIs	https://doi.org/10.1557/adv.2016.434
State	Published - 2016

ASJC Scopus subject areas

Mechanical Engineering
Mechanics of Materials
Materials Science(all)
Condensed Matter Physics

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title = "Synthesis and characterization of empty silicon clathrates for anode applications in Li-ion batteries",

abstract = "Several processing methods were developed and evaluated for synthesizing empty silicon clathrates. A solution synthesis method based on the Hofmann-elimination oxidation reaction was successfully utilized to produce 20 mg of empty Si46. Half-cells using the Si46 electrodes were successfully cycled for 1000 cycles at rate of 5.3C. The capacity of the Si46 electrode in long-term tests was 675 mAh/g at the 4th cycle, but increased to 809 mAh/g at 50 cycles. The corresponding Coulombic efficiency was better than 99%. The capacity dropped from 809 to 553 mAh/g after 1000 cycles while maintaining a 99% Coulombic efficiency. In comparison, a Ba8Al8Si38 electrode could be cycled for about 200 cycles with a lower capacity and Coulombic efficiency. Potential applications of empty silicon clathrates as anode materials in Li-ion batteries are discussed.",

author = "Chan, {Kwai S.} and Miller, {Michael A.} and Carol Ellis-Terrell and Candace Chan",

note = "Funding Information: This work was supported by the Batteries for Advanced Transportation Technologies (BATT) Program at Lawrence Berkeley National Laboratory (LBNL) through Contract No. DEAC0205CH11231, with Dr. Michel Foure at LBNL as program manager. The contribution of C.K.C. was supported by the National Science Foundation through Grant No. DMR-1206795 and Fulton School of Engineering, Arizona State University. Publisher Copyright: {\textcopyright} 2016 Materials Research Society.",

year = "2016",

doi = "10.1557/adv.2016.434",

language = "English (US)",

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journal = "MRS Advances",

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publisher = "Materials Research Society",

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AU - Chan, Kwai S.

AU - Miller, Michael A.

AU - Ellis-Terrell, Carol

AU - Chan, Candace

N1 - Funding Information: This work was supported by the Batteries for Advanced Transportation Technologies (BATT) Program at Lawrence Berkeley National Laboratory (LBNL) through Contract No. DEAC0205CH11231, with Dr. Michel Foure at LBNL as program manager. The contribution of C.K.C. was supported by the National Science Foundation through Grant No. DMR-1206795 and Fulton School of Engineering, Arizona State University. Publisher Copyright: © 2016 Materials Research Society.

PY - 2016

Y1 - 2016

N2 - Several processing methods were developed and evaluated for synthesizing empty silicon clathrates. A solution synthesis method based on the Hofmann-elimination oxidation reaction was successfully utilized to produce 20 mg of empty Si46. Half-cells using the Si46 electrodes were successfully cycled for 1000 cycles at rate of 5.3C. The capacity of the Si46 electrode in long-term tests was 675 mAh/g at the 4th cycle, but increased to 809 mAh/g at 50 cycles. The corresponding Coulombic efficiency was better than 99%. The capacity dropped from 809 to 553 mAh/g after 1000 cycles while maintaining a 99% Coulombic efficiency. In comparison, a Ba8Al8Si38 electrode could be cycled for about 200 cycles with a lower capacity and Coulombic efficiency. Potential applications of empty silicon clathrates as anode materials in Li-ion batteries are discussed.

AB - Several processing methods were developed and evaluated for synthesizing empty silicon clathrates. A solution synthesis method based on the Hofmann-elimination oxidation reaction was successfully utilized to produce 20 mg of empty Si46. Half-cells using the Si46 electrodes were successfully cycled for 1000 cycles at rate of 5.3C. The capacity of the Si46 electrode in long-term tests was 675 mAh/g at the 4th cycle, but increased to 809 mAh/g at 50 cycles. The corresponding Coulombic efficiency was better than 99%. The capacity dropped from 809 to 553 mAh/g after 1000 cycles while maintaining a 99% Coulombic efficiency. In comparison, a Ba8Al8Si38 electrode could be cycled for about 200 cycles with a lower capacity and Coulombic efficiency. Potential applications of empty silicon clathrates as anode materials in Li-ion batteries are discussed.

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Synthesis and characterization of empty silicon clathrates for anode applications in Li-ion batteries

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