Observation of a large magnetocaloric effect in a 2D Gd(III)-based coordination polymer.

@article{Biswas2013ObservationOA,
  title={Observation of a large magnetocaloric effect in a 2D Gd(III)-based coordination polymer.},
  author={Soumava Biswas and Amit Adhikary and Soumyabrata Goswami and Sanjit Konar},
  journal={Dalton transactions},
  year={2013},
  volume={42 37},
  pages={
          13331-4
        }
}
A new 2D Gd(III)-based coordination polymer has close to the highest cryogenic magnetocaloric effect of any MOF reported so far. The experimental results reveal its structural features and magnetic properties. 
View on PubMed
rsc.org
61 Citations

61 Citations

Citation Type

Citation Type

Magnetocaloric effect and slow magnetic relaxation in two dense (3,12)-connected lanthanide complexes
Two (3,12)-connected complexes with distorted cubic [Ln4O4] (Ln = Gd (1), Dy (2)) building units were synthesized. The magnetic studies reveal that 1 features a large magnetocaloric effect with
Study of a magnetic-cooling material Gd(OH)CO3
The magnetocaloric effect of a coordination polymeric material with a repeating unit of Gd(OH)CO3 has been studied experimentally using isothermal magnetization and heat capacity measurements. The
Large magnetocaloric effect in a dense and stable inorganic-organic hybrid cobridged by in situ generated sulfate and oxalate.
A dense and stable inorganic-organic hybrid with distorted cubic [Gd4O4] units as building blocks bridged by in situ generated sulfate and oxalate was synthesized. Magnetic measurements indicate that
Concomitant spin-canted antiferromagnetic ordering and proton conduction in homometallic and homoleptic coordination polymers.
TLDR
Two unprecedented oxonate based 1D coordination polymers with Fe(II, and Co(II) with spin canted antiferromagnetic ordering at low temperatures have been synthesized.
Ln-MOFs using a compartmental ligand with a unique combination of hard–soft terminals and their magnetic, gas adsorption and luminescence properties
The present work is part of our ongoing quest for developing multifunctional lanthanide–organic hybrid materials using non-conventional soft N-rich pyridyl–pyrazole-based ligands.
Two isostructural 3D lanthanide coordination networks (Ln = Gd(3+), Dy(3+)) with squashed cuboid-type nanoscopic cages showing significant cryogenic magnetic refrigeration and slow magnetic relaxation.
TLDR
Two isostructural lanthanide-based 3D coordination networks with densely packed distorted cuboid nanoscopic cages with significant cryogenic magnetocaloric effect are reported for the first time.
An exceptionally stable 3D GdIII-organic framework for use as a magnetocaloric refrigerant
An unexpected 3D GdIII-organic framework containing random GdIII-hydroxy “ladders”, {[Gd(OH)(H2O)(abtc)0.5]·H2O}n (1) (H4abtc = 3,3′,5,5′-azobenzene-tetracarboxylic acid), has been synthesized by an
Three 3D Lanthanide coordination polymers: Synthesis, luminescence and magnetic properties
Field-Induced Relaxation of Magnetization in a Three-Dimensional LnMOF with the Second Bridging Ligand Squarate
A three-dimensional (3D) dysprosium(III) metal-organic framework with nicotinate N-oxide (NNO–) and squarate (C4O42–) mixed bridging ligands, [Dy(NNO)(C4O4)(H2O)]n (1), has been hydrothermally
Tricarboxylate-based Gd(III) coordination polymers exhibiting large magnetocaloric effects.
TLDR
Two Gd(III) coordination polymers with the formula [Gd( citric acid, H3nta)2]∞ () have been successfully prepared under hydrothermal conditions and magnetocaloric effects are revealed.
...
1
2
3
4
5
...

References

SHOWING 1-10 OF 38 REFERENCES
A ferromagnetically coupled diphenoxo-bridged Gd(3+)-Mn2+ dinuclear complex with a large magneto-caloric effect.
A novel diphenoxo-bridged Gd(3+)-Mn(2+) dimer is proposed as a good candidate for cryogenic magnetic refrigeration. The large MCE is enhanced by the ferromagnetic interaction between the two metal
Increasing the dimensionality of cryogenic molecular coolers: Gd-based polymers and metal-organic frameworks.
The magnetothermal properties of a coordination polymer and a metal-organic framework (MOF) based on Gd(3+) ions are reported. An equally large cryogenic magnetocaloric effect (MCE) is found,
Mn(II) -Gd(III) phosphonate cages with a large magnetocaloric effect.
TLDR
This work has used a mixed-metal 3d–4f approach to make cobalt(II) (s=3/2) and gadolinium phosphonate complexes with large MCEs.
A metal-organic framework as attractive cryogenic magnetorefrigerant.
TLDR
A Gd(III)-based metal-organic framework (MOF) has an unprecedented large magnetocaloric effect around 2 K, which makes it an interesting magnetorefrigerant for ultralow-temperature applications.
Lanthanide discs chill well and relax slowly.
The synthesis, structure and magnetic properties of two isostructural heptametallic lanthanide discs are reported, showing single molecule magnet (SMM) behaviour with a large energy barrier for the
A dense metal-organic framework for enhanced magnetic refrigeration.
The three-dimensional metal-organic framework Gd(HCOO)3 is characterized by a relatively compact crystal lattice of weakly interacting Gd(3+) spin centers interconnected via lightweight formate
Ferromagnetic cobalt metallocycles.
The tripodal alcohol 1,1,1-tris(hydroxymethyl)ethane (H3thme) directs the formation of heptanuclear cobalt metallocycles in which the metal ions are coupled ferromagnetically.
Co–Gd phosphonate complexes as magnetic refrigerants
Three 3d–4f phosphonate complexes, [CoII8GdIII8(μ3-OH)4(NO3)4(O3PtBu)8(O2CtBu)16], [CoII8GdIII4(O3PtBu)6(O2CtBu)16] and [CoII4GdIII6(O3PCH2Ph)6(O2CtBu)14(MeCN)2], have been synthesized and have
A large cryogenic magnetocaloric effect exhibited at low field by a 3D ferromagnetically coupled Mn(II)-Gd(III) framework material.
TLDR
The large cryogenic magnetocaloric effect of a 3D oxydiacetate-bridged gadolinium-manganese MOF material, [Mn(H(2)O)(6)], which suggests that 1 could be considered as a potential coolant for liquid helium temperature applications.
Gd5(SixGe1–x)4: An Extremum Material
The large shear displacements of atomic layers in Gd5(SixGe1–x)4 materials, coupled with the change of crystallographic symmetry and magnetic order, characterizes these transformations as
...
1
2
3
4
...