Synthesis and electrochemical performance of mesoporous SiO{sub 2}–carbon nanofibers composite as anode materials for lithium secondary batteries

Hyun, Yura; Choi, Jin-Yeong; Park, Heai-Ku; Bae, Jae Young; Lee, Chang-Seop

doi:10.1016/J.MATERRESBULL.2016.03.006

Title: Synthesis and electrochemical performance of mesoporous SiO{sub 2}–carbon nanofibers composite as anode materials for lithium secondary batteries

Journal Article · Sat Oct 15 00:00:00 EDT 2016 · Materials Research Bulletin

DOI:https://doi.org/10.1016/J.MATERRESBULL.2016.03.006· OSTI ID:22581641

Hyun, Yura; Choi, Jin-Yeong ^[1]; Park, Heai-Ku ^[2]; Bae, Jae Young ^[1]; Lee, Chang-Seop ^[1]

Department of Chemistry, Keimyung University (Korea, Republic of)
Department of Chemical Engineering, Keimyung University (Korea, Republic of)

Highlights: • Mesoporous SiO{sub 2}–carbon nanofibers composite synthesized on Ni foam without any binder. • This composite was directly applied as anode material of Li secondary batteries. • Showed the highest initial (2420 mAh/g) and discharging (2092 mAh/g) capacity. • This material achieved a retention rate of 86.4% after 30 cycles. - Abstract: In this study, carbon nanofibers (CNFs) and mesoporous SiO{sub 2}–carbon nanofibers composite were synthesized and applied as the anode materials in lithium secondary batteries. CNFs and mesoporous SiO{sub 2}–CNFs composite were grown via chemical vapor deposition method with iron-copper catalysts. Mesoporous SiO{sub 2} materials were prepared by sol–gel method using tetraethylorthosilicate as the silica source and cetyltrimethylammoniumchloride as the template. Ethylene was used as the carbon source and passes into a quartz reactor of a tube furnace heated to 600 °C, and the temperature was maintained at 600 °C for 10 min to synthesize CNFs and mesoporous SiO{sub 2}–CNFs composite. The electrochemical characteristics of the as-prepared CNFs and mesoporous SiO{sub 2}–CNFs composite as the anode of lithium secondary batteries were investigated using a three-electrode cell. In particular, the mesoporous SiO{sub 2}–CNFs composites synthesized without binder after depositing mesoporous SiO{sub 2} on Ni foam showed the highest charging and discharging capacity and retention rate. The initial capacity (2420 mAh/g) of mesoporous SiO{sub 2}–CNFs composites decreased to 2092 mAh/g after 30 cycles at a retention rate of 86.4%.

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OSTI ID:: 22581641

Journal Information:: Materials Research Bulletin, Vol. 82; Other Information: Copyright (c) 2016 Elsevier Science B.V., Amsterdam, The Netherlands, All rights reserved.; Country of input: International Atomic Energy Agency (IAEA); ISSN 0025-5408

Country of Publication:: United States

Language:: English

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36 MATERIALS SCIENCE
ANODES
CARBON
CARBON FIBERS
CHEMICAL VAPOR DEPOSITION
COMPOSITE MATERIALS
COPPER
ELECTRIC BATTERIES
ELECTROCHEMISTRY
ETHYLENE
FOAMS
IRON
LITHIUM
NANOFIBERS
NICKEL
QUARTZ
RETENTION
SILICON OXIDES
SOL-GEL PROCESS
SURFACE PROPERTIES
SYNTHESIS

Title: Synthesis and electrochemical performance of mesoporous SiO{sub 2}–carbon nanofibers composite as anode materials for lithium secondary batteries

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