Nanoparticles of [FeNH2-trz3] Br2-3H 2O (NH2-trz=2-Amino-l,2,4-triazole) prepared by the reverse micelle technique: Influence of particle and coherent domain sizeson spin-crossover properties

Thibaut Forestier; Abdellah Kaiba; Stanislav Pechev; Dominique Denux; Philippe Guionneau; Céline Etrillard; Nathalie Daro; Eric Freysz; Jean François Létard

doi:10.1002/chem.200900297

Nanoparticles of [FeNH₂-trz₃] Br₂-3H ₂O (NH₂-trz=2-Amino-l,2,4-triazole) prepared by the reverse micelle technique: Influence of particle and coherent domain sizeson spin-crossover properties

Thibaut Forestier, Abdellah Kaiba, Stanislav Pechev, Dominique Denux, Philippe Guionneau, Céline Etrillard, Nathalie Daro, Eric Freysz, Jean François Létard

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

151 Scopus citations

Abstract

This paper describes the synthesis of iron(II) spin-crossover nanoparticles prepared by the reverse micelle technique by using the non-ionic surfactant Lauropal (Ifralan D0205) from the polyoxyethylenic family. By changing the surfactant/water ratio, the size of the particles of [Fe(NH₂trz) ₃]Br₂·3H₂O (with NH₂trz=4- amino1,2,4-triazole) can be controlled. On the macroscopic scale this complex exhibits cooperative thermal spin crossovers at 305 and 320 K. We find that when the size is reduced down to 50 nm, the spin transition becomes gradual and no hysteresis can be detected. For our data it seems that the critical size, for which the existence of a thermal hysteresis can be detected, is around 50 nm. Interestingly, the change of the particle size induces almost no change in the temperature of the thermal spin transition. A systematic determination of coherent domain size carried out on the nanoparticles by powder X-ray diffraction indicates that at approximately 30 nm individual particles consist of one coherent domain.

Original language	English
Pages (from-to)	6122-6130
Number of pages	9
Journal	Chemistry - A European Journal
Volume	15
Issue number	25
DOIs	https://doi.org/10.1002/chem.200900297
State	Published - 15 Jun 2009
Externally published	Yes

Keywords

Iron
Nanoparticles
Nanotechnology
Solid-state structures
Spin crossover

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10.1002/chem.200900297

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Forestier, T., Kaiba, A., Pechev, S., Denux, D., Guionneau, P., Etrillard, C., Daro, N., Freysz, E., & Létard, J. F. (2009). Nanoparticles of [FeNH₂-trz₃] Br₂-3H ₂O (NH₂-trz=2-Amino-l,2,4-triazole) prepared by the reverse micelle technique: Influence of particle and coherent domain sizeson spin-crossover properties. Chemistry - A European Journal, 15(25), 6122-6130. https://doi.org/10.1002/chem.200900297

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title = "Nanoparticles of [FeNH2-trz3] Br2-3H 2O (NH2-trz=2-Amino-l,2,4-triazole) prepared by the reverse micelle technique: Influence of particle and coherent domain sizeson spin-crossover properties",

abstract = "This paper describes the synthesis of iron(II) spin-crossover nanoparticles prepared by the reverse micelle technique by using the non-ionic surfactant Lauropal (Ifralan D0205) from the polyoxyethylenic family. By changing the surfactant/water ratio, the size of the particles of [Fe(NH2trz) 3]Br2·3H2O (with NH2trz=4- amino1,2,4-triazole) can be controlled. On the macroscopic scale this complex exhibits cooperative thermal spin crossovers at 305 and 320 K. We find that when the size is reduced down to 50 nm, the spin transition becomes gradual and no hysteresis can be detected. For our data it seems that the critical size, for which the existence of a thermal hysteresis can be detected, is around 50 nm. Interestingly, the change of the particle size induces almost no change in the temperature of the thermal spin transition. A systematic determination of coherent domain size carried out on the nanoparticles by powder X-ray diffraction indicates that at approximately 30 nm individual particles consist of one coherent domain.",

keywords = "Iron, Nanoparticles, Nanotechnology, Solid-state structures, Spin crossover",

author = "Thibaut Forestier and Abdellah Kaiba and Stanislav Pechev and Dominique Denux and Philippe Guionneau and C{\'e}line Etrillard and Nathalie Daro and Eric Freysz and L{\'e}tard, \{Jean Fran{\c c}ois\}",

year = "2009",

month = jun,

day = "15",

doi = "10.1002/chem.200900297",

language = "English",

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pages = "6122--6130",

journal = "Chemistry - A European Journal",

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Forestier, T, Kaiba, A, Pechev, S, Denux, D, Guionneau, P, Etrillard, C, Daro, N, Freysz, E & Létard, JF 2009, 'Nanoparticles of [FeNH₂-trz₃] Br₂-3H ₂O (NH₂-trz=2-Amino-l,2,4-triazole) prepared by the reverse micelle technique: Influence of particle and coherent domain sizeson spin-crossover properties', Chemistry - A European Journal, vol. 15, no. 25, pp. 6122-6130. https://doi.org/10.1002/chem.200900297

Nanoparticles of [FeNH₂-trz₃] Br₂-3H ₂O (NH₂-trz=2-Amino-l,2,4-triazole) prepared by the reverse micelle technique: Influence of particle and coherent domain sizeson spin-crossover properties. / Forestier, Thibaut; Kaiba, Abdellah; Pechev, Stanislav et al.
In: Chemistry - A European Journal, Vol. 15, No. 25, 15.06.2009, p. 6122-6130.

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

TY - JOUR

T1 - Nanoparticles of [FeNH2-trz3] Br2-3H 2O (NH2-trz=2-Amino-l,2,4-triazole) prepared by the reverse micelle technique

T2 - Influence of particle and coherent domain sizeson spin-crossover properties

AU - Forestier, Thibaut

AU - Kaiba, Abdellah

AU - Pechev, Stanislav

AU - Denux, Dominique

AU - Guionneau, Philippe

AU - Etrillard, Céline

AU - Daro, Nathalie

AU - Freysz, Eric

AU - Létard, Jean François

PY - 2009/6/15

Y1 - 2009/6/15

N2 - This paper describes the synthesis of iron(II) spin-crossover nanoparticles prepared by the reverse micelle technique by using the non-ionic surfactant Lauropal (Ifralan D0205) from the polyoxyethylenic family. By changing the surfactant/water ratio, the size of the particles of [Fe(NH2trz) 3]Br2·3H2O (with NH2trz=4- amino1,2,4-triazole) can be controlled. On the macroscopic scale this complex exhibits cooperative thermal spin crossovers at 305 and 320 K. We find that when the size is reduced down to 50 nm, the spin transition becomes gradual and no hysteresis can be detected. For our data it seems that the critical size, for which the existence of a thermal hysteresis can be detected, is around 50 nm. Interestingly, the change of the particle size induces almost no change in the temperature of the thermal spin transition. A systematic determination of coherent domain size carried out on the nanoparticles by powder X-ray diffraction indicates that at approximately 30 nm individual particles consist of one coherent domain.

AB - This paper describes the synthesis of iron(II) spin-crossover nanoparticles prepared by the reverse micelle technique by using the non-ionic surfactant Lauropal (Ifralan D0205) from the polyoxyethylenic family. By changing the surfactant/water ratio, the size of the particles of [Fe(NH2trz) 3]Br2·3H2O (with NH2trz=4- amino1,2,4-triazole) can be controlled. On the macroscopic scale this complex exhibits cooperative thermal spin crossovers at 305 and 320 K. We find that when the size is reduced down to 50 nm, the spin transition becomes gradual and no hysteresis can be detected. For our data it seems that the critical size, for which the existence of a thermal hysteresis can be detected, is around 50 nm. Interestingly, the change of the particle size induces almost no change in the temperature of the thermal spin transition. A systematic determination of coherent domain size carried out on the nanoparticles by powder X-ray diffraction indicates that at approximately 30 nm individual particles consist of one coherent domain.

KW - Iron

KW - Nanoparticles

KW - Nanotechnology

KW - Solid-state structures

KW - Spin crossover

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U2 - 10.1002/chem.200900297

DO - 10.1002/chem.200900297

M3 - Article

AN - SCOPUS:66749148377

SN - 0947-6539

VL - 15

SP - 6122

EP - 6130

JO - Chemistry - A European Journal

JF - Chemistry - A European Journal

IS - 25

ER -

Nanoparticles of [FeNH₂-trz₃] Br₂-3H ₂O (NH₂-trz=2-Amino-l,2,4-triazole) prepared by the reverse micelle technique: Influence of particle and coherent domain sizeson spin-crossover properties

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