Rhodamine 6G-Labeled Pyridyl Aroylhydrazone Fe(II) Complex Exhibiting Synergetic Spin Crossover and Fluorescence

Yuan, Juan; Wu, Shu Qi; Liu, Mei Jiao; Sato, Osamu; Kou, Hui‐Zhong

doi:10.1021/jacs.8b00103

Cited by 101 publications

(91 citation statements)

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“…The design and synthesis of multifunctional materials, especially those featuring an interplay or synergy between two or more properties,have attracted considerable attention in recent years. [1] Theintrinsic properties of the building units commonly used include luminescence, [2] magnetism, [3] electrical conductivity, [4] and chirality. [5] Among them, ahighlight area is the combination of spin crossover (SCO) and luminescence,w hich may expand the horizon of SCO-based applications,e specially in magneto-optical switches.T he optical properties of the Fe II core have been well-documented, where the SCO transition is accompanied by ar eversible change from ah ighly colored high-spin (HS) state to the pale to colorless low-spin (LS) state.…”

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confidence: 99%

A Two‐Dimensional Iron(II) Coordination Polymer with Synergetic Spin‐Crossover and Luminescent Properties

et al. 2019

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Ac omposite material, {[Fe(L)-(TPPE) 0.5 ]·3 CH 3 OH} n ,h as been constructed by integrating the spin-crossover (SCO) subunit Fe II {diethyl(E,E)-2,2'-[1,2phenyl-bis(iminomethylidyne)]bis(3-oxobutanoate)-(2-)-N,N',O 3 ,O 3 '}a nd the highly luminescent connector 1,1,2,2tetrakis(4-(pyridin-4-yl)phenyl)-ethene.I ts structure contains four staggered 4 4l ayers and intercalated methanol. The packing is dominated by considerable H-bonds either between adjacent layers and between layers and guests.Acrystalstructure transformation was detected upon removal of the guest molecules.The SCO transition of the solvated crystals is centered at ca. 215 Kwith anon-symmetrical hysteresis of 25 K wide,a nd the desolvated [Fe(L)(TPPE) 0.5 ] n exhibits gradual SCO without hysteresis.I ntriguingly,t he intensity of the fluorescence at 460 nm for the latter is maximized at the SCO transition. The energy transfer between luminescent and SCO entities is achievable as confirmed by theoretical calculations.Supportinginformation and the ORCID identification number(s) for the author(s) of this article can be found under: https://doi.

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confidence: 99%

A Two‐Dimensional Iron(II) Coordination Polymer with Synergetic Spin‐Crossover and Luminescent Properties

et al. 2019

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“…At 20 K, the χ M T value is 0.93 cm 3 mol −1 K, indicating that about 30 % of the Fe II ions still remain in the HS state. The residual HS Fe II in 1⋅3CH 3 OH and 1 may be ascribed to the structural and topological defects . The subsequent heating process demonstrates almost no thermal hysteresis.…”

Section: Figurementioning

confidence: 94%

“…The SCO entity is a better energy acceptor, and the energy transferred to them from donor luminophores is expected to be different for the two different spin states. Thus, the emission characteristics of the luminophore can be modulated upon spin‐state switching; meanwhile, it is achievable to use the reliable and practical optical signal as a probe for the change of spin states …”

Section: Figurementioning

confidence: 99%

A Two‐Dimensional Iron(II) Coordination Polymer with Synergetic Spin‐Crossover and Luminescent Properties

Chen

Zhang

et al. 2019

Angewandte Chemie

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A composite material, {[Fe(L)(TPPE)0.5]⋅3 CH3OH}n, has been constructed by integrating the spin‐crossover (SCO) subunit FeII{diethyl(E,E)‐2,2′‐[1,2‐phenyl‐bis(iminomethylidyne)]bis(3‐oxobutanoate)‐(2‐)‐N,N′,O3,O3′} and the highly luminescent connector 1,1,2,2‐tetrakis(4‐(pyridin‐4‐yl)phenyl)‐ethene. Its structure contains four staggered 4×4 layers and intercalated methanol. The packing is dominated by considerable H‐bonds either between adjacent layers and between layers and guests. A crystal‐structure transformation was detected upon removal of the guest molecules. The SCO transition of the solvated crystals is centered at ca. 215 K with a non‐symmetrical hysteresis of 25 K wide, and the desolvated [Fe(L)(TPPE)0.5]n exhibits gradual SCO without hysteresis. Intriguingly, the intensity of the fluorescence at 460 nm for the latter is maximized at the SCO transition. The energy transfer between luminescent and SCO entities is achievable as confirmed by theoretical calculations.

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“…Spin-crossover (SCO) compounds are an important class of molecular switches which are widely studied in molecular materials chemistry [1][2][3]. The SCO switching event changes a number of physical properties in a material including its colour, magnetic moment [4], volume [5], dielectric properties [6][7][8][9], conductivity [9][10][11][12], and fluorescence [13][14][15]. Solid or mesophase phase transitions and isotropic melting can also be coupled to spin transitions in soft materials containing SCO centres [16,17].…”

Section: Introductionmentioning

confidence: 99%

Five 2,6-Di(pyrazol-1-yl)pyridine-4-carboxylate Esters, and the Spin States of their Iron(II) Complexes

2019

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Two phenyl ester and three benzyl ester derivatives have been synthesized from 2,6-di(pyrazol-1-yl)pyridine-4-carboxylic acid and the appropriate phenyl or benzyl alcohol using N,N’-dicyclohexylcarbodiimide as the coupling reagent. Complexation of the ligands with Fe[BF4]2·6H2O in acetone yielded the corresponding [FeL2][BF4]2 complex salts. Four of the new ligands and four of the complexes have been crystallographically characterised. Particularly noteworthy are two polymorphs of [Fe(L3)2][BF4]2·2MeNO2 (L3 = 3,4-dimethoxyphenyl 2,6-di{pyrazol-1-yl}pyridine-4-carboxylate), one of which is crystallographically characterised as high-spin while the other exhibits the onset of spin-crossover above room temperature. The other complexes are similarly low-spin at low temperature but exhibit gradual spin-crossover on heating, except for an acetone solvate of [Fe(L5)2][BF4]2 (L5 = benzyl 2,6-di{pyrazol-1-yl}pyridine-4-carboxylate), which exhibits a more abrupt spin-transition at T½ = 273 K with 9 K thermal hysteresis.

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Rhodamine 6G-Labeled Pyridyl Aroylhydrazone Fe(II) Complex Exhibiting Synergetic Spin Crossover and Fluorescence

Cited by 101 publications

References 93 publications

A Two‐Dimensional Iron(II) Coordination Polymer with Synergetic Spin‐Crossover and Luminescent Properties

A Two‐Dimensional Iron(II) Coordination Polymer with Synergetic Spin‐Crossover and Luminescent Properties

A Two‐Dimensional Iron(II) Coordination Polymer with Synergetic Spin‐Crossover and Luminescent Properties

Five 2,6-Di(pyrazol-1-yl)pyridine-4-carboxylate Esters, and the Spin States of their Iron(II) Complexes

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