Toward an iron(II) spin-crossover grafted phosphazene polymer

Ross J. Davidson; Eric W. Ainscough; Andrew M. Brodie; Geoffrey B. Jameson; Mark R. Waterland; Harry R. Allcock; Mark D. Hindenlang; Boujemaa Moubaraki; Keith S. Murray; Keith C. Gordon; Raphael Horvath; Guy N L Jameson

doi:10.1021/ic300853f

Toward an iron(II) spin-crossover grafted phosphazene polymer

Ross J. Davidson, Eric W. Ainscough, Andrew M. Brodie, Geoffrey B. Jameson, Mark R. Waterland, Harry R. Allcock, Mark D. Hindenlang, Boujemaa Moubaraki, Keith S. Murray, Keith C. Gordon, Raphael Horvath, Guy N L Jameson

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

29 Scopus citations

Abstract

Two new cyclotriphosphazene ligands with pendant 2,2′:6′, 2″-terpyridine (Terpy) moieties, namely, (pentaphenoxy){4-[2,6-bis(2- pyridyl)]pyridoxy}cyclotriphosphazene (L ¹), (pentaphenoxy){4-[2,6- terpyridin-4-yl]phenoxy}cyclotriphosphazene (L ²), and their respective polymeric analogues, L ^1P and L ^2P, were synthesized. These ligands were used to form iron(II) complexes with an Fe ^IITerpy ₂ core. Variable-temperature resonance Raman, UV-visible, and Mössbauer spectroscopies with magnetic measurements aided by density functional theory calculations were used to understand the physical characteristics of the complexes. By a comparison of measurements, the polymers were shown to behave in the same way as the cyclotriphosphazene analogues. The results showed that spin crossover (SCO) can be induced to start at high temperatures by extending the spacer length of the ligand to that in L ² and L ^2P; this combination provides a route to forming a malleable SCO material.

Original language	English (US)
Pages (from-to)	8307-8316
Number of pages	10
Journal	Inorganic Chemistry
Volume	51
Issue number	15
DOIs	https://doi.org/10.1021/ic300853f
State	Published - Aug 6 2012

All Science Journal Classification (ASJC) codes

Inorganic Chemistry
Physical and Theoretical Chemistry

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@article{b8dc89d207e14519a703c0e984b97053,

title = "Toward an iron(II) spin-crossover grafted phosphazene polymer",

abstract = "Two new cyclotriphosphazene ligands with pendant 2,2′:6′, 2″-terpyridine (Terpy) moieties, namely, (pentaphenoxy){4-[2,6-bis(2- pyridyl)]pyridoxy}cyclotriphosphazene (L 1), (pentaphenoxy){4-[2,6- terpyridin-4-yl]phenoxy}cyclotriphosphazene (L 2), and their respective polymeric analogues, L 1P and L 2P, were synthesized. These ligands were used to form iron(II) complexes with an Fe IITerpy 2 core. Variable-temperature resonance Raman, UV-visible, and M{\"o}ssbauer spectroscopies with magnetic measurements aided by density functional theory calculations were used to understand the physical characteristics of the complexes. By a comparison of measurements, the polymers were shown to behave in the same way as the cyclotriphosphazene analogues. The results showed that spin crossover (SCO) can be induced to start at high temperatures by extending the spacer length of the ligand to that in L 2 and L 2P; this combination provides a route to forming a malleable SCO material.",

author = "Davidson, {Ross J.} and Ainscough, {Eric W.} and Brodie, {Andrew M.} and Jameson, {Geoffrey B.} and Waterland, {Mark R.} and Allcock, {Harry R.} and Hindenlang, {Mark D.} and Boujemaa Moubaraki and Murray, {Keith S.} and Gordon, {Keith C.} and Raphael Horvath and Jameson, {Guy N L}",

year = "2012",

month = aug,

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doi = "10.1021/ic300853f",

language = "English (US)",

volume = "51",

pages = "8307--8316",

journal = "Inorganic Chemistry",

issn = "0020-1669",

publisher = "American Chemical Society",

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TY - JOUR

T1 - Toward an iron(II) spin-crossover grafted phosphazene polymer

AU - Davidson, Ross J.

AU - Ainscough, Eric W.

AU - Brodie, Andrew M.

AU - Jameson, Geoffrey B.

AU - Waterland, Mark R.

AU - Allcock, Harry R.

AU - Hindenlang, Mark D.

AU - Moubaraki, Boujemaa

AU - Murray, Keith S.

AU - Gordon, Keith C.

AU - Horvath, Raphael

AU - Jameson, Guy N L

PY - 2012/8/6

Y1 - 2012/8/6

N2 - Two new cyclotriphosphazene ligands with pendant 2,2′:6′, 2″-terpyridine (Terpy) moieties, namely, (pentaphenoxy){4-[2,6-bis(2- pyridyl)]pyridoxy}cyclotriphosphazene (L 1), (pentaphenoxy){4-[2,6- terpyridin-4-yl]phenoxy}cyclotriphosphazene (L 2), and their respective polymeric analogues, L 1P and L 2P, were synthesized. These ligands were used to form iron(II) complexes with an Fe IITerpy 2 core. Variable-temperature resonance Raman, UV-visible, and Mössbauer spectroscopies with magnetic measurements aided by density functional theory calculations were used to understand the physical characteristics of the complexes. By a comparison of measurements, the polymers were shown to behave in the same way as the cyclotriphosphazene analogues. The results showed that spin crossover (SCO) can be induced to start at high temperatures by extending the spacer length of the ligand to that in L 2 and L 2P; this combination provides a route to forming a malleable SCO material.

AB - Two new cyclotriphosphazene ligands with pendant 2,2′:6′, 2″-terpyridine (Terpy) moieties, namely, (pentaphenoxy){4-[2,6-bis(2- pyridyl)]pyridoxy}cyclotriphosphazene (L 1), (pentaphenoxy){4-[2,6- terpyridin-4-yl]phenoxy}cyclotriphosphazene (L 2), and their respective polymeric analogues, L 1P and L 2P, were synthesized. These ligands were used to form iron(II) complexes with an Fe IITerpy 2 core. Variable-temperature resonance Raman, UV-visible, and Mössbauer spectroscopies with magnetic measurements aided by density functional theory calculations were used to understand the physical characteristics of the complexes. By a comparison of measurements, the polymers were shown to behave in the same way as the cyclotriphosphazene analogues. The results showed that spin crossover (SCO) can be induced to start at high temperatures by extending the spacer length of the ligand to that in L 2 and L 2P; this combination provides a route to forming a malleable SCO material.

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Toward an iron(II) spin-crossover grafted phosphazene polymer

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