Modeling of transport properties of interfacially controlled electroceramics: Application to n-conducting barium titanate

Preis, Wolfgang; Sitte, Werner

doi:10.1007/s10832-009-9577-8

Cited by 14 publications

(5 citation statements)

References 22 publications

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“…Many authors have reported that GB resistivity is affected by the presence of surface acceptor states that originate from frozenin cation vacancies and act as conduction electron traps in the immediate vicinity of the grain boundary. 1,47,[54][55][56][57][58][59] Due to the repulsive Coulomb force, electrons are depleted in the near interface region giving rise to a positive space charge layer on either side of the GB core. The space charge layer is comprised of defects with positive effective charge whereas it is depleted of mobile negatively charged carriers.…”

Section: Section Ivc: Grain Boundary Conductivitymentioning

confidence: 99%

Defect chemistry and relaxation processes: effect of an amphoteric substituent in lead-free BCZT ceramics

Coondoo

Panwar

Vidyasagar

et al. 2016

Phys. Chem. Chem. Phys.

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The effect of praseodymium (Pr), an amphoteric substituent, on phase transition, dielectric relaxation and electrical conductivity has been studied and analysed in 0.5Ba(ZrTi)O-0.5(BaCa)TiO (BCZT) ceramics synthesized by a solid state reaction method. Structural investigations showed co-existence of two phases - tetragonal (P4mm) and rhombohedral (R3m) - for compositions with x ≤ 0.05 wt% Pr. Temperature dependent dielectric studies revealed two phase transitions - rhombohedral (R) → tetragonal (T) and T → cubic (C) - that gradually evolved into one T → C transition for x > 0.05 wt% Pr in BCZT. A dielectric relaxation behaviour was observed in the temperature range of 275-500 °C that was attributed to the localized relaxation process (short-range hopping motion of oxygen vacancies) in the bulk of the material. Grain and grain boundary conductivity evaluated from the impedance data revealed that Pr acts as a donor dopant for x ≤ 0.05 wt% while it is an acceptor for higher concentration, in accordance with XRD observations. Defect chemistry analysis for better interpretation of the acquired data is presented. Frequency and temperature dependent ac conductivity studies were also performed and the obtained activation energy values were associated with possible conduction mechanisms.

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Section: Section Ivc: Grain Boundary Conductivitymentioning

confidence: 99%

Defect chemistry and relaxation processes: effect of an amphoteric substituent in lead-free BCZT ceramics

Coondoo

Panwar

Vidyasagar

et al. 2016

Phys. Chem. Chem. Phys.

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“…This behaviour could be interpreted previously by means of an extended Schottky-barrier model. 23 Between 250 and 600 • C the activation energy corresponds to the Schottky-barrier height. In accordance with the Heywang model the PTC effect is accompanied by a rapid increase of the Schottky-barrier height at temperatures higher than the Curie-point.…”

Section: Ptc Behaviourmentioning

confidence: 99%

Electrical properties and structure of grain boundaries in n-conducting BaTiO3 ceramics

Hou

Zhang

Preis

et al. 2011

Journal of the European Ceramic Society

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“…The validity of Eq. ( 14) well within the NTC regime and up to 900°C has been experimentally verified [31].…”

Section: ( )mentioning

confidence: 74%

Electrothermal Instabilities in Barium Titanate Based Ceramics

Krikkis

2024

Preprint

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An electrothermal analysis for barium titanate based ceramics is presented combining the Heywang–Jonker model for the electric resistivity with a heat dissipation mechanism based on natural convection and radiation in a one dimensional model on the device level with voltage as the control parameter. Both PTC and NTC effects are accounted for through the double Schottky barriers at the grain boundaries of the material. The problem formulated in this way admits uniform and non–uniform multiple steady state solutions that do not depend on the external circuit. The numerical bifurcation analysis reveals that the PTC effect gives rise to several multiplicites above the Curie point, whereas the NTC effect is responsible for the thermal runaway (temperature blowup). The thermal runaway phenomenon as a potential thermal shock could be among the possible reasons for the observed thermomechanical failures (delamination fracture). The theoretical results for the NTC regime and the thermal runaway are in agreement with experimental flash sintering results obtained for 3% and 8% yttria stabilized zirconia.

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Modeling of transport properties of interfacially controlled electroceramics: Application to n-conducting barium titanate

Cited by 14 publications

References 22 publications

Defect chemistry and relaxation processes: effect of an amphoteric substituent in lead-free BCZT ceramics

Defect chemistry and relaxation processes: effect of an amphoteric substituent in lead-free BCZT ceramics

Electrical properties and structure of grain boundaries in n-conducting BaTiO3 ceramics

Electrothermal Instabilities in Barium Titanate Based Ceramics

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