NaGdS<sub>2</sub>: A Promising Sulfide for Cryogenic Magnetic Cooling

Delacotte, Charlène; Pomelova, T. A.; Stephant, Thomas; Guizouarn, Thierry; Cordier, Stéphane; Наумов, Н. Г.; Lemoine, Pierric

doi:10.1021/acs.chemmater.1c04105

“…This is rationalized by differences in the exchange interaction and the onset of ordering at higher temperatures in LiGdS 2 . At high temperatures, T > 2 K, a similar effect is not observed in the A 2 GdSbO 6 double perovskites but may result in significant differences in the magnetocaloric effect closer to the ordering temperature in Ca 2 GdSbO 6 …”

Section: Comparison To Top Performing Gd3+ Magnetocaloric Materialsmentioning

confidence: 72%

“…At high temperatures, T > 2 K, a similar effect is not observed in the A 2 GdSbO 6 double perovskites but may result in significant differences in the magnetocaloric effect closer to the ordering temperature in Ca 2 GdSbO 6 . 44 …”

Section: Comparison To Top Performing Gd 3+ Magnet...mentioning

confidence: 99%

Free-Spin Dominated Magnetocaloric Effect in Dense Gd³⁺ Double Perovskites

Koskelo

¹

,

Liu

²

,

Mukherjee

³

et al. 2022

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Frustrated lanthanide oxides with dense magnetic lattices are of fundamental interest for their potential in cryogenic refrigeration due to a large ground state entropy and suppressed ordering temperatures but can often be limited by short-range correlations. Here, we present examples of frustrated fcc oxides, Ba 2 GdSbO 6 and Sr 2 GdSbO 6 , and the new site-disordered analogue Ca 2 GdSbO 6 ([CaGd] A [CaSb] B O 6 ), in which the magnetocaloric effect is influenced by minimal superexchange ( J 1 ∼ 10 mK). We report on the crystal structures using powder X-ray diffraction and the bulk magnetic properties through low-field susceptibility and isothermal magnetization measurements. The Gd compounds exhibit a magnetic entropy change of up to −15.8 J/K/mol Gd in a field of 7 T at 2 K, a 20% excess compared to the value of −13.0 J/K/mol Gd for a standard in magnetic refrigeration, Gd 3 Ga 5 O 12 . Heat capacity measurements indicate a lack of magnetic ordering down to 0.4 K for Ba 2 GdSbO 6 and Sr 2 GdSbO 6 , suggesting cooling down through the liquid 4-He regime. A mean-field model is used to elucidate the role of primarily free-spin behavior in the magnetocaloric performance of these compounds in comparison to other top-performing Gd-based oxides. The chemical flexibility of the double perovskites raises the possibility of further enhancement of the magnetocaloric effect in the Gd 3+ fcc lattices.

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“…For instance, FeCr 2 S 4 presents a reversible MCE around a FiM transition (T N = 167 K) with maximum magnetic entropy change = 3.72 J.kg -1 .K -1 for ΔH = 50 kOe, along with 𝛥𝑆 𝑚𝑎𝑥 a cusp-like anomaly around 70 K 4 . Recently, Delacotte et al 19 showed a larger MCE for NaGdS 2 that presents very weak local AFM interactions because of its negligible exchange interactions. Such a compound exhibits a up to 54 J kg -1 K -1 at 2.5 K for μ 0 ΔH = 5 T, being then suggested 𝛥𝑆 𝑚𝑎𝑥 𝑀 as a promising material for Cryogenic Magnetic Cooling.…”

Section: Introductionmentioning

confidence: 99%

High-pressure synthesis, spin-glass behaviour, and magnetocaloric effects in Fe_xTi₂S₄ heideite sulphides

Silva

¹

,

Gainza

²

,

Rodrigues

³

et al. 2022

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“…At high temperatures, T > 2 K, a similar effect is not observed in the A 2 GdSbO 6 double perovskites but may result in significant differences in the magnetocaloric effect closer to the ordering temperature in Ca 2 GdSbO 6 . 44 The fcc materials presented here, Ba 2 GdSbO 6 and Sr 2 GdSbO 6 , are likely able to cool below the industry standard, Gd 3 Ga 5 O 12 (which has a lower cooling limit of ∼ 0.8 K due to spin-spin correlations 45 ), into the temperature regime of paramagnetic salts (∼ 100 mK or less 46 ) based on their minimal superexchange. This presents a possible significant advancement as the frus-trating lattice should have a better per unit volume magnetic entropy change than a Gd 3+based paramagnetic salt.…”

Section: Comparison To Top Performing Gd 3+ Magnetocaloric Materialsmentioning

confidence: 87%

Free-spin dominated magnetocaloric effect in dense Gd$^{3+}$ double perovskites

Koskelo¹,

Liu²,

Mukherjee³

et al. 2022

Preprint

0

View full text Add to dashboard Cite

Frustrated lanthanide oxides with dense magnetic lattices are of fundamental interest for their potential in cryogenic refrigeration due to a large ground state entropy and suppressed ordering temperatures, but can often be limited by short-range correlations. Here, we present examples of frustrated fcc oxides, Ba 2 GdSbO 6 and Sr 2 GdSbO 6 and the new site-disordered analog Ca 2 GdSbO 6 ([CaGd] A [CaSb] B O 6 ), in which the magnetocaloric effect is influenced by minimal superexchange (J 1 ∼ 10 mK). We report on the crystal structures using powder xray diffraction and the bulk magnetic properties through low-field susceptibility and isothermal magnetization measurements. The Gd compounds exhibit a magnetic entropy change of up to -15.8 J/K/mol Gd in a field of 7 T at 2 K, a 20% excess compared to the value of -13.0 J/K/mol Gd for a standard in magnetic refrigeration, Gd 3 Ga 5 O 12 . Heat capacity measurements indicate a lack of magnetic ordering down to 0.4 K for Ba 2 GdSbO 6 and Sr 2 GdSbO 6 , suggesting cooling down through the liquid 4-He regime. A mean-field model is used to elucidate the role of primarily free spin behavior in the magnetocaloric performance of these compounds in comparison to other top-performing Gd-based oxides. The chemical flexibility of the double perovskites raises the possibility of further enhancement of the magnetocaloric effect in the Gd 3+ fcc lattices.

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NaGdS₂: A Promising Sulfide for Cryogenic Magnetic Cooling

Cited by 25 publications

References 81 publications

Free-Spin Dominated Magnetocaloric Effect in Dense Gd³⁺ Double Perovskites

Free-Spin Dominated Magnetocaloric Effect in Dense Gd³⁺ Double Perovskites

High-pressure synthesis, spin-glass behaviour, and magnetocaloric effects in Fe_xTi₂S₄ heideite sulphides

Free-spin dominated magnetocaloric effect in dense Gd$^{3+}$ double perovskites

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NaGdS2: A Promising Sulfide for Cryogenic Magnetic Cooling

Cited by 25 publications

References 81 publications

Free-Spin Dominated Magnetocaloric Effect in Dense Gd3+ Double Perovskites

Free-Spin Dominated Magnetocaloric Effect in Dense Gd3+ Double Perovskites

High-pressure synthesis, spin-glass behaviour, and magnetocaloric effects in FexTi2S4 heideite sulphides

Free-spin dominated magnetocaloric effect in dense Gd$^{3+}$ double perovskites

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Product

Resources

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NaGdS₂: A Promising Sulfide for Cryogenic Magnetic Cooling

Free-Spin Dominated Magnetocaloric Effect in Dense Gd³⁺ Double Perovskites

Free-Spin Dominated Magnetocaloric Effect in Dense Gd³⁺ Double Perovskites

High-pressure synthesis, spin-glass behaviour, and magnetocaloric effects in Fe_xTi₂S₄ heideite sulphides