Layer-by-layer printing of multi-layered heterostructures using Li4Ti5O12 and Si for high power Li-ion storage

Lee, S; Huang, C; Grant, P

Journal article

Layer-by-layer printing of multi-layered heterostructures using Li4Ti5O12 and Si for high power Li-ion storage

Abstract:: Heterogeneous, multi-layered electrodes based on high power Li4Ti5O12 interleaved with a smaller fraction of high capacity Si were fabricated using layer-by-layer spray printing, with the goal of achieving a balance of power and capacity for Li-ion storage technologies. The faradaic charge/discharge behavior of the multi-layered hybrid electrodes was investigated as a function of (i) the thickness of the discrete Si layer within the multi-layered electrode, and (ii) the location of the Si lay...
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Publication status:: Published

Peer review status:: Peer reviewed

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APA Style

Lee, S., Huang, C., & Grant, P. (2019). Layer-by-layer printing of multi-layered heterostructures using Li4Ti5O12 and Si for high power Li-ion storage. Nano Energy, 61, 96–103.

MLA Style

Lee, S., et al. “Layer-by-Layer Printing of Multi-Layered Heterostructures Using Li4Ti5O12 and Si for High Power Li-Ion Storage.” Nano Energy, vol. 61, Elsevier, 2019, pp. 96–103.

Chicago Style

Lee, S, C Huang, and P Grant. 2019. “Layer-by-Layer Printing of Multi-Layered Heterostructures Using Li4Ti5O12 and Si for High Power Li-Ion Storage.” Nano Energy 61: 96–103.
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Files:: 1-s2.0-S22112855193034...

(Version of record, pdf, 2.2MB)

Publisher copy:: 10.1016/j.nanoen.2019.04.044

Authors

+ Lee, S More by this author

Institution:

University of Oxford

Division:

MPLS Division

Department:

Materials

Role:

Author

+ Huang, C More by this author

Institution:

University of Oxford

Division:

MPLS Division

Department:

Materials

Role:

Author

+ Grant, P More by this author

Institution:

University of Oxford

Division:

MPLS

Department:

Materials

Oxford college:

St Catherine's College

Role:

Author

Bibliographic Details

Publisher:: Elsevier Publisher's website
Journal:: Nano Energy Journal website
Volume:: 61
Pages:: 96-103
Publication date:: 2019-04-16
Acceptance date:: 2019-04-10
DOI:: 10.1016/j.nanoen.2019.04.044
EISSN:: 2211-3282
ISSN:: 2211-2855

Item Description

Keywords:: spray printing

Li-ion storage

multi-layered electrode

Si

Li4Ti5O12
Pubs id:: pubs:995304
UUID:: uuid:a9573695-944a-42bc-bdca-86282db4d7c7
Local pid:: pubs:995304
Source identifiers:: 995304
Deposit date:: 2019-07-05

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Copyright holder:: Lee, SH et al

Licence:: CC Attribution (CC BY)

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Journal article

Layer-by-layer printing of multi-layered heterostructures using Li4Ti5O12 and Si for high power Li-ion storage

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