Two-Dimensional Nb-Based M4C3 Solid Solutions (MXenes)

Jian Yang; Michael Naguib; Michael Ghidiu; Li Mei Pan; Jian Gu; Jagjit Nanda; Joseph Halim; Yury Gogotsi; Michel W. Barsoum

doi:10.1111/jace.13922

Two-Dimensional Nb-Based M₄C₃ Solid Solutions (MXenes)

Jian Yang, Michael Naguib, Michael Ghidiu, Li Mei Pan, Jian Gu, Jagjit Nanda, Joseph Halim, Yury Gogotsi, Michel W. Barsoum

College of Materials Science and Engineering

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

299 Scopus citations

Abstract

Herein, two new two-dimensional Nb₄C₃-based solid solutions (MXenes), (Nb_0.8,Ti_0.2)₄C₃T_x and (Nb_0.8,Zr_0.2)₄C₃T_x (where T is a surface termination) were synthesized - as confirmed by X-ray diffraction - from their corresponding MAX phase precursors (Nb_0.8,Ti_0.2)₄AlC₃ and (Nb_0.8,Zr_0.2)₄AlC₃. This is the first report on a Zr-containing MXene. Intercalation of Li ions into these two compositions, and Nb₄C₃T_x was studied to determine the potential of those materials for energy storage applications. Lithiation and delithiation peaks at 2.26 and 2.35 V, respectively, appeared in the case of Nb₄C₃T_x, but were not present in Nb₂CT_x. After 20 cycles at a rate of C/4, the specific capacities of (Nb_0.8,Ti_0.2)₄C₃T_x and (Nb_0.8,Zr_0.2)₄C₃T_x were 158 and 132 mAh/g, respectively, both slightly lower than the capacity of Nb₄C₃T_x.

Original language	English
Pages (from-to)	660-666
Number of pages	7
Journal	Journal of the American Ceramic Society
Volume	99
Issue number	2
DOIs	https://doi.org/10.1111/jace.13922
State	Published - 1 Feb 2016

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title = "Two-Dimensional Nb-Based M4C3 Solid Solutions (MXenes)",

abstract = "Herein, two new two-dimensional Nb4C3-based solid solutions (MXenes), (Nb0.8,Ti0.2)4C3Tx and (Nb0.8,Zr0.2)4C3Tx (where T is a surface termination) were synthesized - as confirmed by X-ray diffraction - from their corresponding MAX phase precursors (Nb0.8,Ti0.2)4AlC3 and (Nb0.8,Zr0.2)4AlC3. This is the first report on a Zr-containing MXene. Intercalation of Li ions into these two compositions, and Nb4C3Tx was studied to determine the potential of those materials for energy storage applications. Lithiation and delithiation peaks at 2.26 and 2.35 V, respectively, appeared in the case of Nb4C3Tx, but were not present in Nb2CTx. After 20 cycles at a rate of C/4, the specific capacities of (Nb0.8,Ti0.2)4C3Tx and (Nb0.8,Zr0.2)4C3Tx were 158 and 132 mAh/g, respectively, both slightly lower than the capacity of Nb4C3Tx.",

author = "Jian Yang and Michael Naguib and Michael Ghidiu and Pan, {Li Mei} and Jian Gu and Jagjit Nanda and Joseph Halim and Yury Gogotsi and Barsoum, {Michel W.}",

note = "Publisher Copyright: {\textcopyright} 2015 The American Ceramic Society.",

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doi = "10.1111/jace.13922",

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T1 - Two-Dimensional Nb-Based M4C3 Solid Solutions (MXenes)

AU - Yang, Jian

AU - Naguib, Michael

AU - Ghidiu, Michael

AU - Pan, Li Mei

AU - Gu, Jian

AU - Nanda, Jagjit

AU - Halim, Joseph

AU - Gogotsi, Yury

AU - Barsoum, Michel W.

PY - 2016/2/1

Y1 - 2016/2/1

N2 - Herein, two new two-dimensional Nb4C3-based solid solutions (MXenes), (Nb0.8,Ti0.2)4C3Tx and (Nb0.8,Zr0.2)4C3Tx (where T is a surface termination) were synthesized - as confirmed by X-ray diffraction - from their corresponding MAX phase precursors (Nb0.8,Ti0.2)4AlC3 and (Nb0.8,Zr0.2)4AlC3. This is the first report on a Zr-containing MXene. Intercalation of Li ions into these two compositions, and Nb4C3Tx was studied to determine the potential of those materials for energy storage applications. Lithiation and delithiation peaks at 2.26 and 2.35 V, respectively, appeared in the case of Nb4C3Tx, but were not present in Nb2CTx. After 20 cycles at a rate of C/4, the specific capacities of (Nb0.8,Ti0.2)4C3Tx and (Nb0.8,Zr0.2)4C3Tx were 158 and 132 mAh/g, respectively, both slightly lower than the capacity of Nb4C3Tx.

AB - Herein, two new two-dimensional Nb4C3-based solid solutions (MXenes), (Nb0.8,Ti0.2)4C3Tx and (Nb0.8,Zr0.2)4C3Tx (where T is a surface termination) were synthesized - as confirmed by X-ray diffraction - from their corresponding MAX phase precursors (Nb0.8,Ti0.2)4AlC3 and (Nb0.8,Zr0.2)4AlC3. This is the first report on a Zr-containing MXene. Intercalation of Li ions into these two compositions, and Nb4C3Tx was studied to determine the potential of those materials for energy storage applications. Lithiation and delithiation peaks at 2.26 and 2.35 V, respectively, appeared in the case of Nb4C3Tx, but were not present in Nb2CTx. After 20 cycles at a rate of C/4, the specific capacities of (Nb0.8,Ti0.2)4C3Tx and (Nb0.8,Zr0.2)4C3Tx were 158 and 132 mAh/g, respectively, both slightly lower than the capacity of Nb4C3Tx.

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M3 - 文章

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Two-Dimensional Nb-Based M₄C₃ Solid Solutions (MXenes)

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