2021
DOI: 10.1039/d0sm02190c
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Thermodiffusion anisotropy under a magnetic field in ionic liquid-based ferrofluids

Abstract: Ferrofluids based on maghemite nanoparticles (NPs), typically 10 nm in diameter, are dispersed in an ionic liquid (1-ethyl 3-methylimidazolium bistriflimide - EMIM-TFSI). The average interparticle interaction is found repulsive by...

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Cited by 11 publications
(16 citation statements)
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“…61 Note that here, a weak decrease of the short range ordering could be compensated by the weak decrease of dipolar magnetic interaction (attractive on average in zero field). 29 In summary, it then seems reasonable to extend our conclusion and assume that the compressibility w and the second virial coefficient A 2 are to the first order, both temperature-independent, for dispersions at any volume fraction for the three counter-ions within the experimental temperature range explored.…”
Section: Experimental Results and Analysissupporting
confidence: 53%
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“…61 Note that here, a weak decrease of the short range ordering could be compensated by the weak decrease of dipolar magnetic interaction (attractive on average in zero field). 29 In summary, it then seems reasonable to extend our conclusion and assume that the compressibility w and the second virial coefficient A 2 are to the first order, both temperature-independent, for dispersions at any volume fraction for the three counter-ions within the experimental temperature range explored.…”
Section: Experimental Results and Analysissupporting
confidence: 53%
“…61 Note that here, a weak decrease of the short range ordering could be compensated by the weak decrease of dipolar magnetic interaction (attractive on average in zero field). 29…”
Section: Experimental Results and Analysismentioning
confidence: 99%
See 1 more Smart Citation
“…A marked decrease of ŜNP /kT with the temperature increase is also observed here, at 85 • C, ŜNP /kT is of the order of + 0.2 K −1 , irrespectively to OA added concentration. In literature, very few experimental colloidal systems present both S T > 0 and ∂S T /∂T < 0, we can quote the work by Fiuza et al [66] on ferrofluids dispersed in an Ionic Liquid and the work by Sehnen et al [8] on aqueous ferrofluids with two different added salts. While S T is frequently negative in aqueous ferrofluids, see for example [9], in this latter study, S T is positive with ∂S T /∂T < 0 with added TBAOH salt.…”
Section: Thermophoresismentioning
confidence: 98%
“…The electrostatic stabilization mechanism was extended to a non-aqueous highly polar solvent dimethyl sulfoxide (DMSO) 125 and also to various ionic liquids. [126][127][128][129] DMSO and ionic liquids have a permittivity lower than that of water, and consequently the stabilization of magnetic nanoparticles by electrostatic repulsion is expected to be more difficult than in water. Long term (several years) colloidal stability, even at relatively high temperatures (up to 200 °C), was achieved recently by adapting the interfacial properties of magnetic nanoparticles to pure ionic liquid carriers.…”
Section: Preparation Of Magnetic Fluidsmentioning
confidence: 99%