Cooperative Jahn−Teller Interactions in Dynamic Copper(II) Complexes. Temperature Dependence of the Crystal Structure and EPR Spectrum of Deuterated Ammonium Copper(II) Sulfate Hexahydrate

Hitchman, Michael A.; Maaskant, W.J.A.; Plas, J. van der; Simmons, Charles J.; Stratemeier, Horst

doi:10.1021/ja981831w

Cited by 78 publications

(171 citation statements)

References 45 publications

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“…These spectra are well observable up to 35 K for (I) and 80 K for (II). This supposition is supported by the modelling of the averaging process in deuterated (ND 4 ) 2 Cu(SO 4 ) Á 6D 2 O indicating the predominant role of the interactions between the complexes in the inequivalent positions [25]. The above difference in temperatures reflects the difference in the energy separation between the ground and the first excited JT configurations (72 cm --1 in I [21,23] and 108 cm --1 in II [24], respectively).…”

Section: Analysis Of the Experimental Spectramentioning

confidence: 75%

Exchange Interactions between Dissimilar JT Copper Ions in K2Zn0.92Cu0.08(SO4)2 � 6D2O and (ND4)2Mg0.92Cu0.08(SO4)2 � 6D2O Crystals

Yablokov

Augustyniak-Jabłokow

2002

phys. stat. sol. (b)

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A study of exchange and vibronic interactions in pairs of dissimilar (D-S) Jahn-Teller ions in Cu 2þ doped zinc potassium (I) and magnesium ammonium (II) Tutton salts is reported. An interpretation of EPR spectra is done on the basis of the predicted differences in the angular dependences of resonance lines originating from isolated centres and pairs of similar and dissimilar ions. An assignment of D-S pairs is confirmed by the so-called reverse shift manifested as non-coincidence of the centres of pair spectra with those of appropriate isolated ion spectra. It is shown that for the spin-spin interaction parameter K < (g 1z À g 2z ) bB (K is the sum of isotropic (J) and anisotropic (D) contributions) the reverse shift is always present in the spectrum of exchange pairs of D-S ions. The g z values for such pairs are determined by g z pair ¼ g 1; 2z AE 1 4 ðg 1z À g 2z Þ D 2 2 , where D 2 ¼ ðK xx þ K yy Þ=½2ðg 1z À g 2z Þ bB. The reverse shift for the compounds studied takes values of 0.6-1.0 mT. The values of J (I) ¼ 0.0034 cm --1 ; D (I) ¼ 0.0072 cm --1 for the potassium and J (II) ¼ 0.009 cm --1 ; D (II) ¼ 0.0068 cm --1 for the ammonium compounds are determined. A possible existence of vibronic correlation is discussed.

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Section: Analysis Of the Experimental Spectramentioning

confidence: 75%

Exchange Interactions between Dissimilar JT Copper Ions in K2Zn0.92Cu0.08(SO4)2 � 6D2O and (ND4)2Mg0.92Cu0.08(SO4)2 � 6D2O Crystals

Yablokov

Augustyniak-Jabłokow

2002

phys. stat. sol. (b)

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“…Agreement with experiment is satisfactory showing that the complex present in the doped zinc(II) compound and the pure copper(II) compound have similar potential surfaces. This contrasts with the Tutton salts, where the temperature dependence of the EPR spectra of the doped systems commences at significantly lower temperatures than for the corresponding pure copper(II) compounds [6,10,17]. The energy separation between the lowest vibronic wavefunctions, -81 cm -', obtained with the RHW method is quite similar to that obtained by Simmons et al [13] with the SG approach, -77 cm -', confirming that this model is a good approximation for the compound.…”

Section: Relationship Between Epr Spectra and Crystal Structuresmentioning

confidence: 78%

“…The fact that the temperature dependence of the bond lengths may be explained with the SG and RHW models suggests that cooperative interactions between the complexes are negligible in [Cu(bipy)2(NO2)]NO 3 . This contrasts with the ammonium copper(II) Tutton salt, where these have a strong influence on the thermal behavior [ 10]. Presumably, the bulky nature of the aromatic amines, and lack of hydrogen bonding interactions, moderates the cooperative interactions in [Cu(bipy)2(NO,)]NO3.…”

Section: Relationship Between Epr Spectra and Crystal Structuresmentioning

confidence: 94%

“…The RHW model was subsequently used to interpret the temperature dependence of the EPR spectra of various mixed-ligand complexes [7,8] and has been extended to treat the temperature dependence of both the gvalues and crystal structures of pure copper(II) complexes [9]. For these studies it was sometimes found necessary to include cooperative interactions between neighboring complexes [ 10] or to take into account the temperature dependence of the rate of exchange between the vibronic wavefunctions [11].…”

Section: Introductionmentioning

confidence: 99%

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EPR of two Cu2+ complexes showing dynamic Jahn-Teller effects

2000

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The powder electron paramagnetic resonance spectra of -1% Cu doped into [Zn(bipy) 2 (NO2)]NO3 and [Zn(bipyam) 2 (NO,)]NO3 , bipy = 2,2'-bipyridyl, bipyam = 2,2'-bipyridylamine, over the temperature range 4.2-300 K are reported. For [Zn/Cu(bipy) 2 (NO2)]NO3 a spectrum characteristic of a tetragonally elongated octahedral complex with a slight orthorhombic distortion is observed below -50 K, but above this temperature the signals associated with the two higher g-values gradually converge. At low temperature a spectrum similar to that of the bipy complex is observed for [Zn/Cu(bipyam)2(NO 2 )]NO3 , but between 40 and 60 K the spectrum gradually changes to one characteristic of a tetragonal g-tensor with g ii < ga . The spectra may be interpreted satisfactorily with a model in which the temperature dependence of the g-values is estimated from the vibronic wavefunctions of a copper(II) complex under the influence of second-order Jahn-Teller coupling and a ligand field of tetragonal symmetry perturbed by crystal lattice forces. The results are consistent with the crystal structures reported for the compounds at various temperatures.

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“…Copper(II) ions introduced in the host lattice of ZnGeF 6 · 6H 2 O substitute Zn 2+ ions and produce significant distortion of the nearly perfect O h -symmetry water octahedra. This is due to strong Jahn-Teller effect leading to the three distortions of the water octahedra along Cu-O bonds separated by identical potential energy barriers of the order of 450-600 cm −1 [12]. An influence of the Jahn-Teller effect is visible in temperature dependence of the EPR spectrum as it will be shown in the next section.…”

Section: Introductionmentioning

confidence: 81%

Electron Spin Relaxation of Cu(II) Ions in ZnGeF₆·6H₂O Crystal with Strong Jahn-Teller Effect

2005

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Cu2+ ions doped to ZnGeF6 · 6H2O substitute the host Zn 2+ ions and undergo a strong Jahn-Teller effect producing nearly axial elongation of the Cu(H 2 O) 6 octahedra with equal population of the three possible deformations at low temperatures as shown by the EPR spectra. Reorientations between these distorted configurations are observed as a continuous shift of EPR lines leading to averaging of the g-and A-tensors. The full averaging is observed at the phase transition temperature 200 K. Electron spin relaxation was measured up to 45 K only, where the electron spin echo signal was detectable. Electron spin-lattice relaxation is governed by the Raman two-phonon process allowing to determine the Debye temperature as Θ D = 99 K. There is no contribution of the Jahn-Teller dynamics to the spin-lattice relaxation rate. Electron spin echo decay is strongly modulated by dipolar coupling to the 1 H and 19 F nuclei. The phase memory time is governed by instantaneous diffusion at helium temperatures and then by spin-lattice relaxation processes and excitation to the first vibronic level of energy ∆ = 151 cm −1 .

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Cooperative Jahn−Teller Interactions in Dynamic Copper(II) Complexes. Temperature Dependence of the Crystal Structure and EPR Spectrum of Deuterated Ammonium Copper(II) Sulfate Hexahydrate

Cited by 78 publications

References 45 publications

Exchange Interactions between Dissimilar JT Copper Ions in K2Zn0.92Cu0.08(SO4)2 � 6D2O and (ND4)2Mg0.92Cu0.08(SO4)2 � 6D2O Crystals

Exchange Interactions between Dissimilar JT Copper Ions in K2Zn0.92Cu0.08(SO4)2 � 6D2O and (ND4)2Mg0.92Cu0.08(SO4)2 � 6D2O Crystals

EPR of two Cu2+ complexes showing dynamic Jahn-Teller effects

Electron Spin Relaxation of Cu(II) Ions in ZnGeF₆·6H₂O Crystal with Strong Jahn-Teller Effect

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Cooperative Jahn−Teller Interactions in Dynamic Copper(II) Complexes. Temperature Dependence of the Crystal Structure and EPR Spectrum of Deuterated Ammonium Copper(II) Sulfate Hexahydrate

Cited by 78 publications

References 45 publications

Exchange Interactions between Dissimilar JT Copper Ions in K2Zn0.92Cu0.08(SO4)2 � 6D2O and (ND4)2Mg0.92Cu0.08(SO4)2 � 6D2O Crystals

Exchange Interactions between Dissimilar JT Copper Ions in K2Zn0.92Cu0.08(SO4)2 � 6D2O and (ND4)2Mg0.92Cu0.08(SO4)2 � 6D2O Crystals

EPR of two Cu2+ complexes showing dynamic Jahn-Teller effects

Electron Spin Relaxation of Cu(II) Ions in ZnGeF6·6H2O Crystal with Strong Jahn-Teller Effect

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Electron Spin Relaxation of Cu(II) Ions in ZnGeF₆·6H₂O Crystal with Strong Jahn-Teller Effect