Phase transitions and the Jahn-Teller effect in Tl2PbCu(NO2)6

Harrowfield, B.V.; Dempster, Angus; Freeman, T E; Pilbrow, John R.

doi:10.1088/0022-3719/6/12/008

Cited by 24 publications

(5 citation statements)

References 12 publications

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“…Preliminary structural data on KzPbCu(NO2)6 indicate a compressed tetragonal CuN6 configuration below 281K (Takagi et al, 1974), in agreement with single-crystal e.p.r, spectra and X-ray powder data . A compressed tetragonal configuration (14) 1"73 (13) 1"31 (11) has also been found in TIEPbCu(NO2) 6 below 291K (Harrowfield, Dempster, Freeman & Pilbrow, 1973). These structural results suggest that a compressed tetragonal environment for CuN 6 can occur when M' is Pb.…”

supporting

confidence: 53%

The structure of two crystals of rubidium lead hexanitrocuprate(II)

Takagi¹,

Joesten²,

Lenhert³

1976

Acta Crystallogr Sect B

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supporting

confidence: 53%

The structure of two crystals of rubidium lead hexanitrocuprate(II)

Takagi¹,

Joesten²,

Lenhert³

1976

Acta Crystallogr Sect B

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“…K 2 PbCu(NO 2 ) 6 belongs to the crystal system of the elpasolite family, with composition A 2 BM(NO 2 ) 6 , where A = K, Rb, Cs, Tl; B = Ca, Sr, Ba, Pb; and M = Fe, Co, Ni, Cu. These systems have been studied extensively, and especially the copper elpasolite K 2 PbCu(NO 2 ) 6 has attracted special interest as it exhibits successive phase transitions due to the cooperative Jahn−Teller effect.…”

Section: Introductionmentioning

confidence: 99%

“…In particular, K 2 PbCu(NO 2 ) 6 undergoes two successive structural transitions at 281 and 273 K which were previously investigated using electron paramagnetic resonance (EPR) techniques. 6 On the basis of precise X-ray and neutron measurements, Noda et al found that the K 2 PbCu(NO 2 ) 6 elpasolite phase transitions proceed from the face centered cubic phase 1 to the tetragonal phase 2 at 281 K with the c-axis shortened, and to phase 3 with a symmetry lower than orthorhombic, due to the cooperative Jahn−Teller effect. 1 It was further noticed that K 2 PbCu(NO 2 ) 6 is also a potential candidate hosting one-dimensional (1D) antiferromagnetic chains with S = 1/2 per Cu 2+ due to the Cu orbital order induced by the Jahn−Teller distortions.…”

Section: Introductionmentioning

confidence: 99%

Gel Growth of K₂PbCu(NO₂)₆-Elpasolite Single Crystals

Dong

Besara

Henderson

et al. 2017

Crystal Growth & Design

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Single crystals of K 2 PbCu(NO 2 ) 6 have been grown from aqueous solution; however, convection effects often introduce defects in the crystals and contribute to a high nucleation rate. Here, we show that K 2 PbCu(NO 2 ) 6 single crystals can be grown in silica gels where convection is largely eliminated, resulting in diffusion controlled crystal growth. The diffusion coefficients of the Cu 2+ -and Pb 2+ -acetates in potassium silica gel were determined using a classical onedimensional (1D) diffusion model. The influence of the reactant concentrations on the nucleation location and growth was investigated. The growth rate was analyzed using Frank's model for diffusion-controlled growth rates for a radially symmetric crystal. The magnetic susceptibility of K 2 PbCu(NO 2 ) 6 shows evidence of 1D antiferromagnetic behavior based on a Bonner− Fisher fit.

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“…centers in K 2 ZnF 4 (i.e., K 2 Zn 1-x octahedra in other crystals, the g // is significantly greater than the value predicted by the theory based on the ground state jd z 2[ , so these g factors for the tetragonally compressed Cu 2? octahedra in crystals are explained in terms of the vibronic coupling between the ground state jd z 2[ and an appropriate excited state jd x 2 Ày 2[ [3,[6][7][8]. The rhombic distortions of Cu 2?…”

Section: Introductionmentioning

confidence: 99%

Investigations of EPR g Factors and Rhombic Distortion for the Rhombic Cu2+ Centers in K2Zn1−x Cu x F4 Crystals at Low Temperature

Zheng

Zhang

et al. 2012

Appl Magn Reson

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The electron paramagnetic resonance g factors g i (i = x, y, z) of two rhombic Cu 2? centers, Cu 2? (II) and Cu 2? (III), in K 2 Zn 1-x Cu x F 4 crystals found at low temperature are calculated from the complete diagonalization (of energy matrix) method based on the cluster approach. The calculations show that the ground state wave function of the two rhombically compressed Cu 2? centers is jd z 2[ with a small admixture of jd x 2 Ày 2[ . The rhombic distortions for both Cu 2? centers are obtained from the calculations. The results are discussed.

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Phase transitions and the Jahn-Teller effect in Tl₂PbCu(NO₂)₆

Cited by 24 publications

References 12 publications

The structure of two crystals of rubidium lead hexanitrocuprate(II)

The structure of two crystals of rubidium lead hexanitrocuprate(II)

Gel Growth of K₂PbCu(NO₂)₆-Elpasolite Single Crystals

Investigations of EPR g Factors and Rhombic Distortion for the Rhombic Cu2+ Centers in K2Zn1−x Cu x F4 Crystals at Low Temperature

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Phase transitions and the Jahn-Teller effect in Tl2PbCu(NO2)6

Cited by 24 publications

References 12 publications

The structure of two crystals of rubidium lead hexanitrocuprate(II)

The structure of two crystals of rubidium lead hexanitrocuprate(II)

Gel Growth of K2PbCu(NO2)6-Elpasolite Single Crystals

Investigations of EPR g Factors and Rhombic Distortion for the Rhombic Cu2+ Centers in K2Zn1−x Cu x F4 Crystals at Low Temperature

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Product

Resources

About

Phase transitions and the Jahn-Teller effect in Tl₂PbCu(NO₂)₆

Gel Growth of K₂PbCu(NO₂)₆-Elpasolite Single Crystals