Understanding the Critical Role of the Ag Nanophase in Boosting the Initial Reversibility of Transition Metal Oxide Anodes for Lithium-Ion Batteries

Daehee Lee; Mihye Wu; Dong Hyun Kim; Changju Chae; Min Kyung Cho; Ji Young Kim; Sun Sook Lee; Sungho Choi; Youngmin Choi; Tae Joo Shin; Kyung Yoon Chung; Sunho Jeong; Jooho Moon

doi:10.1021/acsami.7b01559

Understanding the Critical Role of the Ag Nanophase in Boosting the Initial Reversibility of Transition Metal Oxide Anodes for Lithium-Ion Batteries

Daehee Lee, Mihye Wu, Dong Hyun Kim, Changju Chae, Min Kyung Cho, Ji Young Kim, Sun Sook Lee, Sungho Choi, Youngmin Choi, Tae Joo Shin, Kyung Yoon Chung, Sunho Jeong, Jooho Moon

Department of Materials Science and Engineering

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

9 Citations (Scopus)

Abstract

The initial reversible capacity, a critical impediment in transition metal oxide-based anodes, is augmented in conversion-reaction-involved CoO anodes for lithium-ion batteries, by incorporating a chemically synthesized Ag nanophase. With an increase in the added amount of Ag nanophase from 5 to 15 wt %, the initial capacity loss decreases linearly up to 31.7%. The Ag nanophase maintains its pristine metallic nature without undergoing phase transformations, even during repeated vigorous electrochemical reactions of the active CoO phase. Complementary ex situ chemical/physical analyses suggest that the Ag nanophase promotes the catalytic generation of reversible gel-like/polymeric films wherein lithium ions are stored capacitively in the low-voltage region below 0.7 V during discharging. These scientific findings would provide a heretofore unrecognized pathway to resolving a major issue associated with the critical irreversibility in conversion-type transition metal oxide anodes.

Original language	English
Pages (from-to)	21715-21722
Number of pages	8
Journal	ACS Applied Materials and Interfaces
Volume	9
Issue number	26
DOIs	https://doi.org/10.1021/acsami.7b01559
Publication status	Published - 2017 Jul 5

Bibliographical note

Funding Information:
This research was supported by the Global Research Laboratory Program of the National Research Foundation (NRF) funded by Ministry of Science, Information and Communication Technologies and Future Planning (NRF-2015K1A1A2029679), and partially supported by the Nano Material Technology Development Program through the National Research Foundation of Korea funded by the Ministry of Science, Information and Communication Technologies and Future Planning (NRF-2015M3A7B4050306) and by the National Research Foundation of Korea funded by Korean government (MSIP) (2012R1A3A2026417).

Publisher Copyright:
© 2017 American Chemical Society.

All Science Journal Classification (ASJC) codes

Materials Science(all)

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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Lee, D., Wu, M., Kim, D. H., Chae, C., Cho, M. K., Kim, J. Y., Lee, S. S., Choi, S., Choi, Y., Shin, T. J., Chung, K. Y., Jeong, S., & Moon, J. (2017). Understanding the Critical Role of the Ag Nanophase in Boosting the Initial Reversibility of Transition Metal Oxide Anodes for Lithium-Ion Batteries. ACS Applied Materials and Interfaces, 9(26), 21715-21722. https://doi.org/10.1021/acsami.7b01559

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title = "Understanding the Critical Role of the Ag Nanophase in Boosting the Initial Reversibility of Transition Metal Oxide Anodes for Lithium-Ion Batteries",

abstract = "The initial reversible capacity, a critical impediment in transition metal oxide-based anodes, is augmented in conversion-reaction-involved CoO anodes for lithium-ion batteries, by incorporating a chemically synthesized Ag nanophase. With an increase in the added amount of Ag nanophase from 5 to 15 wt %, the initial capacity loss decreases linearly up to 31.7%. The Ag nanophase maintains its pristine metallic nature without undergoing phase transformations, even during repeated vigorous electrochemical reactions of the active CoO phase. Complementary ex situ chemical/physical analyses suggest that the Ag nanophase promotes the catalytic generation of reversible gel-like/polymeric films wherein lithium ions are stored capacitively in the low-voltage region below 0.7 V during discharging. These scientific findings would provide a heretofore unrecognized pathway to resolving a major issue associated with the critical irreversibility in conversion-type transition metal oxide anodes.",

author = "Daehee Lee and Mihye Wu and Kim, {Dong Hyun} and Changju Chae and Cho, {Min Kyung} and Kim, {Ji Young} and Lee, {Sun Sook} and Sungho Choi and Youngmin Choi and Shin, {Tae Joo} and Chung, {Kyung Yoon} and Sunho Jeong and Jooho Moon",

note = "Funding Information: This research was supported by the Global Research Laboratory Program of the National Research Foundation (NRF) funded by Ministry of Science, Information and Communication Technologies and Future Planning (NRF-2015K1A1A2029679), and partially supported by the Nano Material Technology Development Program through the National Research Foundation of Korea funded by the Ministry of Science, Information and Communication Technologies and Future Planning (NRF-2015M3A7B4050306) and by the National Research Foundation of Korea funded by Korean government (MSIP) (2012R1A3A2026417). Publisher Copyright: {\textcopyright} 2017 American Chemical Society.",

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Lee, D, Wu, M, Kim, DH, Chae, C, Cho, MK, Kim, JY, Lee, SS, Choi, S, Choi, Y, Shin, TJ, Chung, KY, Jeong, S & Moon, J 2017, 'Understanding the Critical Role of the Ag Nanophase in Boosting the Initial Reversibility of Transition Metal Oxide Anodes for Lithium-Ion Batteries', ACS Applied Materials and Interfaces, vol. 9, no. 26, pp. 21715-21722. https://doi.org/10.1021/acsami.7b01559

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AU - Lee, Daehee

AU - Wu, Mihye

AU - Kim, Dong Hyun

AU - Chae, Changju

AU - Cho, Min Kyung

AU - Kim, Ji Young

AU - Lee, Sun Sook

AU - Choi, Sungho

AU - Choi, Youngmin

AU - Shin, Tae Joo

AU - Chung, Kyung Yoon

AU - Jeong, Sunho

AU - Moon, Jooho

N1 - Funding Information: This research was supported by the Global Research Laboratory Program of the National Research Foundation (NRF) funded by Ministry of Science, Information and Communication Technologies and Future Planning (NRF-2015K1A1A2029679), and partially supported by the Nano Material Technology Development Program through the National Research Foundation of Korea funded by the Ministry of Science, Information and Communication Technologies and Future Planning (NRF-2015M3A7B4050306) and by the National Research Foundation of Korea funded by Korean government (MSIP) (2012R1A3A2026417). Publisher Copyright: © 2017 American Chemical Society.

PY - 2017/7/5

Y1 - 2017/7/5

N2 - The initial reversible capacity, a critical impediment in transition metal oxide-based anodes, is augmented in conversion-reaction-involved CoO anodes for lithium-ion batteries, by incorporating a chemically synthesized Ag nanophase. With an increase in the added amount of Ag nanophase from 5 to 15 wt %, the initial capacity loss decreases linearly up to 31.7%. The Ag nanophase maintains its pristine metallic nature without undergoing phase transformations, even during repeated vigorous electrochemical reactions of the active CoO phase. Complementary ex situ chemical/physical analyses suggest that the Ag nanophase promotes the catalytic generation of reversible gel-like/polymeric films wherein lithium ions are stored capacitively in the low-voltage region below 0.7 V during discharging. These scientific findings would provide a heretofore unrecognized pathway to resolving a major issue associated with the critical irreversibility in conversion-type transition metal oxide anodes.

AB - The initial reversible capacity, a critical impediment in transition metal oxide-based anodes, is augmented in conversion-reaction-involved CoO anodes for lithium-ion batteries, by incorporating a chemically synthesized Ag nanophase. With an increase in the added amount of Ag nanophase from 5 to 15 wt %, the initial capacity loss decreases linearly up to 31.7%. The Ag nanophase maintains its pristine metallic nature without undergoing phase transformations, even during repeated vigorous electrochemical reactions of the active CoO phase. Complementary ex situ chemical/physical analyses suggest that the Ag nanophase promotes the catalytic generation of reversible gel-like/polymeric films wherein lithium ions are stored capacitively in the low-voltage region below 0.7 V during discharging. These scientific findings would provide a heretofore unrecognized pathway to resolving a major issue associated with the critical irreversibility in conversion-type transition metal oxide anodes.

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Understanding the Critical Role of the Ag Nanophase in Boosting the Initial Reversibility of Transition Metal Oxide Anodes for Lithium-Ion Batteries

Abstract

Bibliographical note

All Science Journal Classification (ASJC) codes

UN SDGs

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