Dielectric ordering of water molecules arranged in a dipolar lattice

Belyanchikov, M. A.; Savinov, M. Yu.; Bedran, Z. V.; Bednyakov, Petr; Proschek, Petr; Prokleška, Ján; Abalmasov, V. A.; Petzelt, J.; Жукова, Е. С.; Thomas, Victor G.; Dudka, A. P.; Zhugayevych, Andriy; Prokhorov, A. S.; Anzin, V. B.; Kremer, Reinhard K.; Fischer, Jakob; Lunkenheimer, P.; Loidl, A.; Uykur, Ece; Dressel, Martin; Gorshunov, B. P.

doi:10.1038/s41467-020-17832-y

Cited by 40 publications

(48 citation statements)

References 71 publications

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“…Finally, implicit in Matyushov's theory and our empirical model is the possibility that the anomalously large DEP polarizability of solvated proteins is associated with a large effective dielectric permittivity ( ε eff = κε m ). This could resemble a so‐called relaxor ferroelectric state, which can be regarded as a nano‐ordered ferroelectric with a smeared‐out diffusive phase transition [71]. Supportive evidence for the existence of such nanodomains in the hydration shell of lysozyme has been obtained in MD simulations reported by Martin and Matyushov [98].…”

Section: Discussionmentioning

confidence: 93%

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Protein dielectrophoresis: Key dielectric parameters and evolving theory

Hölzel

Pethig

2020

Electrophoresis

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Globular proteins exhibit dielectrophoresis (DEP) responses in experiments where the applied field gradient factor ∇E2 appears far too small, according to standard DEP theory, to overcome dispersive forces associated with the thermal energy kT of disorder. To address this a DEP force equation is proposed that replaces a previous empirical relationship between the macroscopic and microscopic forms of the Clausius–Mossotti factor. This equation relates the DEP response of a protein directly to the dielectric increment δε+ and decrement δε− that characterize its β‐dispersion at radio frequencies, and also indirectly to its intrinsic dipole moment by way of providing a measure of the protein's effective volume. A parameter Γpw, taken as a measure of cross‐correlated dipole interactions between the protein and its water molecules of hydration, is included in this equation. For 9 of the 12 proteins, for which an evaluation can presently be made, Γpw has a value of ≈4600 ± 120. These conclusions follow an analysis of the failure of macroscopic dielectric mixture (effective medium) theories to predict the dielectric properties of solvated proteins. The implication of a polarizability greatly exceeding the intrinsic value for a protein might reflect the formation of relaxor ferroelectric nanodomains in its hydration shell.

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Section: Discussionmentioning

confidence: 93%

“…Even a small perturbation of an applied field could result in infinite polarization and ferroelectric behavior. Clausius had considered this possibility in 1879, and only recently has this possibility been treated seriously, e.g., [69] and experimentally demonstrated [71].…”

Section: Cavity Fields and The Derivation Of [Cm]micro By Clausiusmentioning

confidence: 99%

Protein dielectrophoresis: Key dielectric parameters and evolving theory

Hölzel

Pethig

2020

Electrophoresis

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“…27–31 The existence of various types of dipolar orderings of H 2 O molecules has been predicted theoretically or demonstrated by computer simulations; however, until recently, no robust experimental observation under ambient conditions has been reported. 32–42 However, in a very recent study 43 we were able to demonstrate that such a state indeed can be formed when single water molecules are confined in cages existing within the crystalline lattice of cordierite, a beryl-related compound.…”

Section: Introductionmentioning

confidence: 88%

“…Their dipole moments are aligned along the c -axis due to coupling of the molecules to alkali ions located at channel bottlenecks.) In our previous work, 43 we presented results of broad-band dielectric spectroscopic studies of the temperature-dependent dielectric response of water molecules in the cordierite matrix. In the present study, we provide additional dielectric and specific heat data and analyses.…”

Section: Introductionmentioning

confidence: 99%

Single-particle and collective excitations of polar water molecules confined in nano-pores within a cordierite crystal lattice

Belyanchikov

Bedran

Savinov

et al. 2022

Phys. Chem. Chem. Phys.

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“…This behavior is generally linked to the appearance of ferroelectricity; however, as its value of Curie temperature T C = −20 K is negative, hydrated beryl ranks among incipient ferroelectrics where the dipole ordering cannot be realized. Interestingly, more recent analogous investigations on hydrated cordierite 11 have revealed an order-disorder ferroelectric phase transition of the water molecules occurring below 3 K.…”

Section: Introductionmentioning

confidence: 92%

Unusual features of lattice dynamics in lawsonite related to its phase transitions: a study using broad-band dielectric spectroscopy

Kadlec¹,

Kadlec²,

Petzelt³

et al. 2022

Preprint

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Lattice dynamics of a single crystal of lawsonite were studied over a broad range of frequencies (1 Hz to 20 THz) using impedance, THz time-domain and infrared spectroscopies. Based on polarized spectra of complex permittivity ε̂ measured as a function of temperature between 10 K and 500 K, we analyzed the properties of the two known phase transitions—an antiferrodistortive one near Tc1 = 270 K and a ferroelectric one, occurring at Tc2 = 124 K. The former one is accompanied by a flat maximum in the THz-range permittivity ε̂c near Tc1, which is due to a polar excitation in the E || c spectra reflecting the dynamics of water and hydroxyl groups. The strength of this mode decreases on cooling below Tc1, and the mode vanishes below Tc2 due to hydrogen ordering. At the pseudoproper ferroelectric phase transition, two independent anomalies in permittivity were observed. First, ε̂a exhibits a peak at Tc2 = 124 K due to critical slowing down of a relaxation in the GHz range. Second, infrared and THz spectra revealed an optical phonon softening towards Tc2 which causes a smaller but pronounced maximum in ε̂b. Such anomaly, consisting in a soft mode polarized perpendicularly to the ferroelectric axis, is unusual in ferroelectrics.

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Dielectric ordering of water molecules arranged in a dipolar lattice

Cited by 40 publications

References 71 publications

Protein dielectrophoresis: Key dielectric parameters and evolving theory

Protein dielectrophoresis: Key dielectric parameters and evolving theory

Single-particle and collective excitations of polar water molecules confined in nano-pores within a cordierite crystal lattice

Unusual features of lattice dynamics in lawsonite related to its phase transitions: a study using broad-band dielectric spectroscopy

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