A Review on Lithium Phosphorus Oxynitride

Jed D. LaCoste; Andriy Zakutayev; Ling Fei

doi:10.1021/acs.jpcc.0c10001

A Review on Lithium Phosphorus Oxynitride

Jed D. LaCoste
, Andriy Zakutayev
, Ling Fei

Materials Science

University of Louisiana at Lafayette

Research output: Contribution to journal › Article › peer-review

72 Scopus Citations

Abstract

Lithium phosphorus oxynitride (LiPON) has paved the way for thin film solid-state battery technology development and has shown application in a large range of fields since its first reported synthesis in 1993. The term LiPON describes the family of materials with the general formula of LixPOyNz offering a great range of stoichiometries with varying properties. Understanding how the properties of LiPON are affected by different preparation methods is important for tuning this material to fit the required application. It is also useful to understand the LiPON relation between the amorphous structure and ionic conductivity, as well as the electrochemically degradation in contact with electrode materials. This review summarizes various methods of synthesizing LiPON and evaluates them on the basis of multiple properties of the resulting material. Structure-property relationships are identified to categorize the various LiPON stoichiometries that have been synthesized. Possible lithium ion conduction pathways and electrochemical degradation mechanism in LiPON are discussed. Representative applications of LiPON films are also introduced. At the end of this review, insights for future research into LiPON materials are provided.

Original language	American English
Pages (from-to)	3651-3667
Number of pages	17
Journal	Journal of Physical Chemistry C
Volume	125
Issue number	7
DOIs	https://doi.org/10.1021/acs.jpcc.0c10001 https://doi.org/10.1021/acs.jpcc.0c10001
State	Published - 25 Feb 2021

Bibliographical note

Publisher Copyright:
© 2021 American Chemical Society. All rights reserved.

NLR Publication Number

NREL/JA-5K00-78441

Keywords

degradation mechanism
ion conduction mechanism
Li-ion battery applications
lithium phosphorous oxynitride
structure-property relationship
synthesis

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title = "A Review on Lithium Phosphorus Oxynitride",

abstract = "Lithium phosphorus oxynitride (LiPON) has paved the way for thin film solid-state battery technology development and has shown application in a large range of fields since its first reported synthesis in 1993. The term LiPON describes the family of materials with the general formula of LixPOyNz offering a great range of stoichiometries with varying properties. Understanding how the properties of LiPON are affected by different preparation methods is important for tuning this material to fit the required application. It is also useful to understand the LiPON relation between the amorphous structure and ionic conductivity, as well as the electrochemically degradation in contact with electrode materials. This review summarizes various methods of synthesizing LiPON and evaluates them on the basis of multiple properties of the resulting material. Structure-property relationships are identified to categorize the various LiPON stoichiometries that have been synthesized. Possible lithium ion conduction pathways and electrochemical degradation mechanism in LiPON are discussed. Representative applications of LiPON films are also introduced. At the end of this review, insights for future research into LiPON materials are provided.",

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AU - Zakutayev, Andriy

AU - Fei, Ling

PY - 2021/2/25

Y1 - 2021/2/25

N2 - Lithium phosphorus oxynitride (LiPON) has paved the way for thin film solid-state battery technology development and has shown application in a large range of fields since its first reported synthesis in 1993. The term LiPON describes the family of materials with the general formula of LixPOyNz offering a great range of stoichiometries with varying properties. Understanding how the properties of LiPON are affected by different preparation methods is important for tuning this material to fit the required application. It is also useful to understand the LiPON relation between the amorphous structure and ionic conductivity, as well as the electrochemically degradation in contact with electrode materials. This review summarizes various methods of synthesizing LiPON and evaluates them on the basis of multiple properties of the resulting material. Structure-property relationships are identified to categorize the various LiPON stoichiometries that have been synthesized. Possible lithium ion conduction pathways and electrochemical degradation mechanism in LiPON are discussed. Representative applications of LiPON films are also introduced. At the end of this review, insights for future research into LiPON materials are provided.

AB - Lithium phosphorus oxynitride (LiPON) has paved the way for thin film solid-state battery technology development and has shown application in a large range of fields since its first reported synthesis in 1993. The term LiPON describes the family of materials with the general formula of LixPOyNz offering a great range of stoichiometries with varying properties. Understanding how the properties of LiPON are affected by different preparation methods is important for tuning this material to fit the required application. It is also useful to understand the LiPON relation between the amorphous structure and ionic conductivity, as well as the electrochemically degradation in contact with electrode materials. This review summarizes various methods of synthesizing LiPON and evaluates them on the basis of multiple properties of the resulting material. Structure-property relationships are identified to categorize the various LiPON stoichiometries that have been synthesized. Possible lithium ion conduction pathways and electrochemical degradation mechanism in LiPON are discussed. Representative applications of LiPON films are also introduced. At the end of this review, insights for future research into LiPON materials are provided.

KW - degradation mechanism

KW - ion conduction mechanism

KW - Li-ion battery applications

KW - lithium phosphorous oxynitride

KW - structure-property relationship

KW - synthesis

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JO - Journal of Physical Chemistry C

JF - Journal of Physical Chemistry C

IS - 7

ER -

A Review on Lithium Phosphorus Oxynitride

Abstract

Bibliographical note

NLR Publication Number

Keywords

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