Nitrogen-doped Ti3C2Tx MXene prepared by thermal decomposition of ammonium salts and its application in flexible quasi-solid-state supercapacitor

[Display omitted] •It provides a green and effective strategy for rapid nitrogen doping into MXene.•Nitrogen doping can effectively increase the layer spacing of Ti3C2Tx MXene.•The as-prepared N-Ti3C2Tx shows enhanced pseudocapacitance of 449F g−1.•The N-Ti3C2Tx supercapacitor delivers an energy den...

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Published in:Chemical engineering journal (Lausanne, Switzerland : 1996) Switzerland : 1996), 2023-02, Vol.458, p.141338, Article 141338
Main Authors: Cai, Man, Wei, Xiaochun, Huang, Haifu, Yuan, Fulin, Li, Cong, Xu, Shuaikai, Liang, Xianqing, Zhou, Wenzheng, Guo, Jin
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Language:English
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MXene
Nitrogen doping
Pseudocapacitance
Supercapacitors
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cited_by cdi_FETCH-LOGICAL-c297t-175a6f6cf1127090ceb2b7d2133eb42f74e0701294c44fb7c81b67811cd14a793
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container_title Chemical engineering journal (Lausanne, Switzerland : 1996)
container_volume 458
creator Cai, Man
Wei, Xiaochun
Huang, Haifu
Yuan, Fulin
Li, Cong
Xu, Shuaikai
Liang, Xianqing
Zhou, Wenzheng
Guo, Jin
description [Display omitted] •It provides a green and effective strategy for rapid nitrogen doping into MXene.•Nitrogen doping can effectively increase the layer spacing of Ti3C2Tx MXene.•The as-prepared N-Ti3C2Tx shows enhanced pseudocapacitance of 449F g−1.•The N-Ti3C2Tx supercapacitor delivers an energy density of 12.78 Wh kg−1.•The strategy opens up a versatile approach for preparing N-MXene Materials. Two-dimensional (2D) Ti3C2Tx MXenes show great potential for application in flexible supercapacitors, due to their good hydrophilicity, metallic conductivity and excellent flexibility. Surface modification of the MXenes by heteroatom doping is a good strategy for adjusting the layer spacing and alleviateing various shortcomings. Herein, the ammonium salt decomposition method is shown to allow rapid nitrogen doping into Ti3C2Tx nanosheets at a low temperature of 350 °C. Compared to the raw Ti3C2Tx, the nitrogen-doped Ti3C2Tx (designated N-Ti3C2Tx) shows an increased layer spacing of 1.451 nm, nitrogen doping levels of 1.42 at% and a low number of residual fluorine functional groups. For the application as an electrode of supercapacitors, the N-Ti3C2Tx electrode shows an outstanding pseudocapacitance performance and mechanical flexibility, with a high specific capacitance of up to 449 F g−1 at 2 mV s−1, which is 1.4 times that of the raw Ti3C2Tx MXene (i.e., 321 F g−1). Furthermore, a quasi-solid-state symmetric supercapacitor assembled with a H2SO4-PVA gel electrolyte is shown to deliver an energy density of 9.57 Wh kg−1 at 250 W kg−1. The outstanding pseudocapacitance of the N-Ti3C2Tx is attributed to the positive effect of nitrogen doping on MXene, such as larger layer spacing and the increased number of surface active sites. The strategy presented herein also opens up a convenient and versatile approach for preparing high performance MXene Materials for energy conversion and storage.
doi_str_mv 10.1016/j.cej.2023.141338
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Two-dimensional (2D) Ti3C2Tx MXenes show great potential for application in flexible supercapacitors, due to their good hydrophilicity, metallic conductivity and excellent flexibility. Surface modification of the MXenes by heteroatom doping is a good strategy for adjusting the layer spacing and alleviateing various shortcomings. Herein, the ammonium salt decomposition method is shown to allow rapid nitrogen doping into Ti3C2Tx nanosheets at a low temperature of 350 °C. Compared to the raw Ti3C2Tx, the nitrogen-doped Ti3C2Tx (designated N-Ti3C2Tx) shows an increased layer spacing of 1.451 nm, nitrogen doping levels of 1.42 at% and a low number of residual fluorine functional groups. For the application as an electrode of supercapacitors, the N-Ti3C2Tx electrode shows an outstanding pseudocapacitance performance and mechanical flexibility, with a high specific capacitance of up to 449 F g−1 at 2 mV s−1, which is 1.4 times that of the raw Ti3C2Tx MXene (i.e., 321 F g−1). Furthermore, a quasi-solid-state symmetric supercapacitor assembled with a H2SO4-PVA gel electrolyte is shown to deliver an energy density of 9.57 Wh kg−1 at 250 W kg−1. The outstanding pseudocapacitance of the N-Ti3C2Tx is attributed to the positive effect of nitrogen doping on MXene, such as larger layer spacing and the increased number of surface active sites. 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Two-dimensional (2D) Ti3C2Tx MXenes show great potential for application in flexible supercapacitors, due to their good hydrophilicity, metallic conductivity and excellent flexibility. Surface modification of the MXenes by heteroatom doping is a good strategy for adjusting the layer spacing and alleviateing various shortcomings. Herein, the ammonium salt decomposition method is shown to allow rapid nitrogen doping into Ti3C2Tx nanosheets at a low temperature of 350 °C. Compared to the raw Ti3C2Tx, the nitrogen-doped Ti3C2Tx (designated N-Ti3C2Tx) shows an increased layer spacing of 1.451 nm, nitrogen doping levels of 1.42 at% and a low number of residual fluorine functional groups. For the application as an electrode of supercapacitors, the N-Ti3C2Tx electrode shows an outstanding pseudocapacitance performance and mechanical flexibility, with a high specific capacitance of up to 449 F g−1 at 2 mV s−1, which is 1.4 times that of the raw Ti3C2Tx MXene (i.e., 321 F g−1). Furthermore, a quasi-solid-state symmetric supercapacitor assembled with a H2SO4-PVA gel electrolyte is shown to deliver an energy density of 9.57 Wh kg−1 at 250 W kg−1. The outstanding pseudocapacitance of the N-Ti3C2Tx is attributed to the positive effect of nitrogen doping on MXene, such as larger layer spacing and the increased number of surface active sites. 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Two-dimensional (2D) Ti3C2Tx MXenes show great potential for application in flexible supercapacitors, due to their good hydrophilicity, metallic conductivity and excellent flexibility. Surface modification of the MXenes by heteroatom doping is a good strategy for adjusting the layer spacing and alleviateing various shortcomings. Herein, the ammonium salt decomposition method is shown to allow rapid nitrogen doping into Ti3C2Tx nanosheets at a low temperature of 350 °C. Compared to the raw Ti3C2Tx, the nitrogen-doped Ti3C2Tx (designated N-Ti3C2Tx) shows an increased layer spacing of 1.451 nm, nitrogen doping levels of 1.42 at% and a low number of residual fluorine functional groups. For the application as an electrode of supercapacitors, the N-Ti3C2Tx electrode shows an outstanding pseudocapacitance performance and mechanical flexibility, with a high specific capacitance of up to 449 F g−1 at 2 mV s−1, which is 1.4 times that of the raw Ti3C2Tx MXene (i.e., 321 F g−1). Furthermore, a quasi-solid-state symmetric supercapacitor assembled with a H2SO4-PVA gel electrolyte is shown to deliver an energy density of 9.57 Wh kg−1 at 250 W kg−1. The outstanding pseudocapacitance of the N-Ti3C2Tx is attributed to the positive effect of nitrogen doping on MXene, such as larger layer spacing and the increased number of surface active sites. The strategy presented herein also opens up a convenient and versatile approach for preparing high performance MXene Materials for energy conversion and storage.</abstract><pub>Elsevier B.V</pub><doi>10.1016/j.cej.2023.141338</doi><orcidid>https://orcid.org/0000-0002-9588-1968</orcidid></addata></record>
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subjects MXene
Nitrogen doping
Pseudocapacitance
Supercapacitors
title Nitrogen-doped Ti3C2Tx MXene prepared by thermal decomposition of ammonium salts and its application in flexible quasi-solid-state supercapacitor
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