Synthesis of Hexagonal FeMnP Thin Films from a Single‐Source Molecular Precursor

The first heterobimetallic phosphide thin film containing iron, manganese, and phosphorus, derived from the single‐source precursor FeMn(CO)8(μ‐PH2), has been prepared using a home‐built metal‐organic chemical vapor deposition apparatus. The thin film contains the same ratio of iron, manganese, and...

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Published in:Chemistry : a European journal 2017-04, Vol.23 (23), p.5565-5572
Main Authors: Leitner, Andrew P., Schipper, Desmond E., Chen, Jing‐Han, Colson, Adam C., Rusakova, Irene, Rai, Binod Kumar, Morosan, Emilia, Whitmire, Kenton H.
Format: Article
Language:English
Subjects:
Bimetals
Chemistry
Hexagonal phase
Iron
magnetic materials
magnetic properties
Manganese
Metal organic chemical vapor deposition
pnictides
Precursors
Substrates
supported catalysts
Thin films
transition metals
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cited_by cdi_FETCH-LOGICAL-c4433-4bc4f8edab42e6f75645a9d16a32570268f7e394b5e0c3e53f1702f37d25269a3
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container_issue 23
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container_title Chemistry : a European journal
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creator Leitner, Andrew P.
Schipper, Desmond E.
Chen, Jing‐Han
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Morosan, Emilia
Whitmire, Kenton H.
description The first heterobimetallic phosphide thin film containing iron, manganese, and phosphorus, derived from the single‐source precursor FeMn(CO)8(μ‐PH2), has been prepared using a home‐built metal‐organic chemical vapor deposition apparatus. The thin film contains the same ratio of iron, manganese, and phosphorus as the initial precursor. The film becomes oxidized when deposited on a quartz substrate, whereas the film deposited on an alumina substrate provides a more homogeneous product. Powder X‐ray diffraction confirms the formation of a metastable, hexagonal FeMnP phase that was previously only observed at temperatures above 1200 °C. Selected area electron diffraction on single crystals isolated from the films was indexed to the hexagonal phase. The effective moment of the films (μeff=3.68 μB) matches the previously reported theoretical value for the metastable hexagonal phase, whereas the more stable orthorhombic phase is known to be antiferromagnetic. These results not only demonstrate the successful synthesis of a bimetallic, ternary thin film from a single‐source precursor, but also the first low temperature approach to the hexagonal phase of FeMnP. Thin film: Ternary bimetallic thin films of the hexagonal, metastable phase of FeMnP are grown from a single‐source precursor, FeMn(CO)9(μ‐PH2), on different substrates at low temperatures through metal‐organic chemical vapor deposition (MOCVD). The magnetic properties of this material are measured for the first time and compared to theoretical values.
doi_str_mv 10.1002/chem.201700203
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The thin film contains the same ratio of iron, manganese, and phosphorus as the initial precursor. The film becomes oxidized when deposited on a quartz substrate, whereas the film deposited on an alumina substrate provides a more homogeneous product. Powder X‐ray diffraction confirms the formation of a metastable, hexagonal FeMnP phase that was previously only observed at temperatures above 1200 °C. Selected area electron diffraction on single crystals isolated from the films was indexed to the hexagonal phase. The effective moment of the films (μeff=3.68 μB) matches the previously reported theoretical value for the metastable hexagonal phase, whereas the more stable orthorhombic phase is known to be antiferromagnetic. These results not only demonstrate the successful synthesis of a bimetallic, ternary thin film from a single‐source precursor, but also the first low temperature approach to the hexagonal phase of FeMnP. 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subjects Bimetals
Chemistry
Hexagonal phase
Iron
magnetic materials
magnetic properties
Manganese
Metal organic chemical vapor deposition
pnictides
Precursors
Substrates
supported catalysts
Thin films
transition metals
title Synthesis of Hexagonal FeMnP Thin Films from a Single‐Source Molecular Precursor
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