Use of multilayered Ni-Sn and Ni-Sn-C thin film anodes for lithium-ion batteries

B. D. Polat; A. Abouimrane; N. Sezgin; O. Keles; K. Amine

doi:10.1016/j.electacta.2014.05.024

Use of multilayered Ni-Sn and Ni-Sn-C thin film anodes for lithium-ion batteries

B. D. Polat
, A. Abouimrane
, N. Sezgin
, O. Keles^*
, K. Amine

^*Bu çalışma için yazışmadan sorumlu yazar

Metalurji ve Malzeme Müh.Böl.

Argonne National Laboratory
Istanbul Technical University
Faculty of Sciences, King Abdulaziz University

Araştırma sonucu: Dergiye katkı › Makale › bilirkişi

16 Atıf (Scopus)

Özet

This study explores the electrochemical performance of Ni-Sn and Ni-Sn-C thin film anodes in rechargeable lithium-ion batteries. A new strategy of forming a Ni-Sn-C multilayered thin film is proposed here, where nickel-coated carbon powder is used as a source material to incorporate carbon atoms into the thin film in a controlled manner. Galvanostatic half-cell measurements demonstrated that the Ni-Sn thin film shows a gradually decreasing capacity with cycling, whereas the Ni-Sn-C thin film exhibits a longer cycle life with good capacity retention. The improved cycle performance of the Ni-Sn-C electrode is attributed to its high tolerance against electrode swelling, which is closely associated with the stress-buffering action of nickel and the homogeneous distribution on nanoparticles induced by carbon.

Orijinal dil	İngilizce
Sayfa (başlangıç-bitiş)	585-593
Sayfa sayısı	9
Dergi	Electrochimica Acta
Hacim	135
DOI'lar	https://doi.org/10.1016/j.electacta.2014.05.024
Yayın durumu	Yayınlandı - 20 Tem 2014

Finansman

This work is a part of the research project 110M148 approved by The Scientific and Technological Research Council of Turkey (TUBİTAK). Support from David Howell (Team Lead), Tien Duong, and Peter Faguy of the Vehicle Technologies Program, Hybrid and Electric Systems, at the U.S. Department of Energy, Office of Energy Efficiency and Renewable Energy, is gratefully acknowledged.

Finansörler
U.S. Department of Energy
Office of Energy Efficiency and Renewable Energy

BM SKH

Bu sonuç, aşağıdaki Sürdürülebilir Kalkınma Hedefine/Hedeflerine katkıda bulunur

SKH 7 Erişilebilir ve Temiz Enerji

Belgeye Erişim

10.1016/j.electacta.2014.05.024

Diğer Dosyalar ve Linkler

Link to publication in Scopus

Alıntı Yap

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title = "Use of multilayered Ni-Sn and Ni-Sn-C thin film anodes for lithium-ion batteries",

abstract = "This study explores the electrochemical performance of Ni-Sn and Ni-Sn-C thin film anodes in rechargeable lithium-ion batteries. A new strategy of forming a Ni-Sn-C multilayered thin film is proposed here, where nickel-coated carbon powder is used as a source material to incorporate carbon atoms into the thin film in a controlled manner. Galvanostatic half-cell measurements demonstrated that the Ni-Sn thin film shows a gradually decreasing capacity with cycling, whereas the Ni-Sn-C thin film exhibits a longer cycle life with good capacity retention. The improved cycle performance of the Ni-Sn-C electrode is attributed to its high tolerance against electrode swelling, which is closely associated with the stress-buffering action of nickel and the homogeneous distribution on nanoparticles induced by carbon.",

keywords = "Carbon, Electron beam evaporation, Lithium-ion batteries, Ni-Sn thin film anode",

author = "Polat, \{B. D.\} and A. Abouimrane and N. Sezgin and O. Keles and K. Amine",

year = "2014",

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day = "20",

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TY - JOUR

T1 - Use of multilayered Ni-Sn and Ni-Sn-C thin film anodes for lithium-ion batteries

AU - Polat, B. D.

AU - Abouimrane, A.

AU - Sezgin, N.

AU - Keles, O.

AU - Amine, K.

PY - 2014/7/20

Y1 - 2014/7/20

N2 - This study explores the electrochemical performance of Ni-Sn and Ni-Sn-C thin film anodes in rechargeable lithium-ion batteries. A new strategy of forming a Ni-Sn-C multilayered thin film is proposed here, where nickel-coated carbon powder is used as a source material to incorporate carbon atoms into the thin film in a controlled manner. Galvanostatic half-cell measurements demonstrated that the Ni-Sn thin film shows a gradually decreasing capacity with cycling, whereas the Ni-Sn-C thin film exhibits a longer cycle life with good capacity retention. The improved cycle performance of the Ni-Sn-C electrode is attributed to its high tolerance against electrode swelling, which is closely associated with the stress-buffering action of nickel and the homogeneous distribution on nanoparticles induced by carbon.

AB - This study explores the electrochemical performance of Ni-Sn and Ni-Sn-C thin film anodes in rechargeable lithium-ion batteries. A new strategy of forming a Ni-Sn-C multilayered thin film is proposed here, where nickel-coated carbon powder is used as a source material to incorporate carbon atoms into the thin film in a controlled manner. Galvanostatic half-cell measurements demonstrated that the Ni-Sn thin film shows a gradually decreasing capacity with cycling, whereas the Ni-Sn-C thin film exhibits a longer cycle life with good capacity retention. The improved cycle performance of the Ni-Sn-C electrode is attributed to its high tolerance against electrode swelling, which is closely associated with the stress-buffering action of nickel and the homogeneous distribution on nanoparticles induced by carbon.

KW - Carbon

KW - Electron beam evaporation

KW - Lithium-ion batteries

KW - Ni-Sn thin film anode

UR - https://www.scopus.com/pages/publications/84902132264

U2 - 10.1016/j.electacta.2014.05.024

DO - 10.1016/j.electacta.2014.05.024

M3 - Article

AN - SCOPUS:84902132264

SN - 0013-4686

VL - 135

SP - 585

EP - 593

JO - Electrochimica Acta

JF - Electrochimica Acta

ER -

Use of multilayered Ni-Sn and Ni-Sn-C thin film anodes for lithium-ion batteries

Özet

Finansman

BM SKH

Belgeye Erişim

Diğer Dosyalar ve Linkler

Parmak izi

Alıntı Yap