New insights on the dynamics of the γ-Fe/α-Fe phase-transition inside iron-filled carbon nanotubes

Filippo S. Boi; Yuzhong Hu; Jiqiu Wen

doi:10.1039/c7ra03144k

New insights on the dynamics of the γ-Fe/α-Fe phase-transition inside iron-filled carbon nanotubes

Filippo S. Boi^*, Yuzhong Hu, Jiqiu Wen

^*Corresponding author for this work

Sichuan University

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

12 Citations (Scopus)

Abstract

One of the challenges in the field of carbon nanotubes (CNTs) is the encapsulation of a single crystalline phase of ferromagnetic α-Fe. The formation of additional γ-Fe and Fe₃C phases during CNT-growth generally limits the direct encapsulation of these crystals in the form of a single phase. A solution, the use of post-synthesis annealing, has been considered; however oxidation of the encapsulated metal-phases is commonly found due to the elevated temperatures (T) necessary for the phase-conversion. Here we investigate the dynamics of γ-Fe to α-Fe transition by T-dependent X-ray diffraction in vacuum. We show that a direct γ-Fe to α-Fe transition is present already below 200 °C and becomes significantly fast in the T-range of 300-399 °C. In such a T-range no metal oxidation is found. Rietveld refinement analyses also show that a T-dependent increase in the unit-cell c-axis value of the graphitic CNT-walls is present.

Original language	English
Pages (from-to)	25025-25030
Number of pages	6
Journal	RSC Advances
Volume	7
Issue number	40
DOIs	https://doi.org/10.1039/c7ra03144k
Publication status	Published - 2017
Externally published	Yes

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title = "New insights on the dynamics of the γ-Fe/α-Fe phase-transition inside iron-filled carbon nanotubes",

abstract = "One of the challenges in the field of carbon nanotubes (CNTs) is the encapsulation of a single crystalline phase of ferromagnetic α-Fe. The formation of additional γ-Fe and Fe3C phases during CNT-growth generally limits the direct encapsulation of these crystals in the form of a single phase. A solution, the use of post-synthesis annealing, has been considered; however oxidation of the encapsulated metal-phases is commonly found due to the elevated temperatures (T) necessary for the phase-conversion. Here we investigate the dynamics of γ-Fe to α-Fe transition by T-dependent X-ray diffraction in vacuum. We show that a direct γ-Fe to α-Fe transition is present already below 200 °C and becomes significantly fast in the T-range of 300-399 °C. In such a T-range no metal oxidation is found. Rietveld refinement analyses also show that a T-dependent increase in the unit-cell c-axis value of the graphitic CNT-walls is present.",

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T1 - New insights on the dynamics of the γ-Fe/α-Fe phase-transition inside iron-filled carbon nanotubes

AU - Boi, Filippo S.

AU - Hu, Yuzhong

AU - Wen, Jiqiu

N1 - Publisher Copyright: This journal is © The Royal Society of Chemistry 2017.

PY - 2017

Y1 - 2017

N2 - One of the challenges in the field of carbon nanotubes (CNTs) is the encapsulation of a single crystalline phase of ferromagnetic α-Fe. The formation of additional γ-Fe and Fe3C phases during CNT-growth generally limits the direct encapsulation of these crystals in the form of a single phase. A solution, the use of post-synthesis annealing, has been considered; however oxidation of the encapsulated metal-phases is commonly found due to the elevated temperatures (T) necessary for the phase-conversion. Here we investigate the dynamics of γ-Fe to α-Fe transition by T-dependent X-ray diffraction in vacuum. We show that a direct γ-Fe to α-Fe transition is present already below 200 °C and becomes significantly fast in the T-range of 300-399 °C. In such a T-range no metal oxidation is found. Rietveld refinement analyses also show that a T-dependent increase in the unit-cell c-axis value of the graphitic CNT-walls is present.

AB - One of the challenges in the field of carbon nanotubes (CNTs) is the encapsulation of a single crystalline phase of ferromagnetic α-Fe. The formation of additional γ-Fe and Fe3C phases during CNT-growth generally limits the direct encapsulation of these crystals in the form of a single phase. A solution, the use of post-synthesis annealing, has been considered; however oxidation of the encapsulated metal-phases is commonly found due to the elevated temperatures (T) necessary for the phase-conversion. Here we investigate the dynamics of γ-Fe to α-Fe transition by T-dependent X-ray diffraction in vacuum. We show that a direct γ-Fe to α-Fe transition is present already below 200 °C and becomes significantly fast in the T-range of 300-399 °C. In such a T-range no metal oxidation is found. Rietveld refinement analyses also show that a T-dependent increase in the unit-cell c-axis value of the graphitic CNT-walls is present.

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DO - 10.1039/c7ra03144k

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EP - 25030

JO - RSC Advances

JF - RSC Advances

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ER -

New insights on the dynamics of the γ-Fe/α-Fe phase-transition inside iron-filled carbon nanotubes

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