Markus Klingler scite author profile

The high oxygen and lithium ion conductivity in LiNbO3 was investigated and interpreted in terms of lithium and oxygen vacancies being intrinsically present in congruently grown single crystals. As a result of this, it was found that the stoichiometry of lithium niobate crystals may be changed with respect to lithium and oxygen. The optical and electrical properties of electrically colored LiNbO3 crystals were studied and it was shown that the absorption spectra of thermally reduced and electrocolored samples are identical. Therefore, the origin of the absorption processes is considered to be the same in both cases. The formation of regions with different stoichiometry due to the injection of additional lithium or oxygen into the LiNbO3 crystals was also observed and investigated. The motion of these stoichiometric domains through a LiNbO3 crystal from one electrode to the other was studied and described in terms of electrodiffusion of the ions and electrons. A model is proposed which considers the injection of oxygen and lithium vacancies for the generation of concentration profiles in the originally homogeneous material. The numerical calculation of the concentration profiles shows good agreement with the experimental results.

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Coulometric titration of substituted LixLa(2−x)/3 TiO3

Klingler

Chu

Weppner

1997

Ionics

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Abstract.Compounds of the series LixLa(2_xv3TiO3 (x = 0.14, 0.23, 0.32, 0.35) as well as materials which are substituted with Pr, Tb, Cr and Fe were investigated by the coulometric titration method. The equilibrium potential as a function of 5Li as determined by the coulometric titration measurements was fitted using the random solution model which takes into account the ionic configurational entropy and the electronic contributions to the chemical potential of lithium.

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Bremsstrahlung Emissivity of a Proton-Electron Plasma in a Strong Magnetic Field

1999

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Solder fatigue failures in a new designed power module under Power Cycling

Durand

Klingler

Bigerelle

et al. 2016

Microelectronics Reliability

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Markus Klingler

Power Cycling Reliability of Power Module: A Survey

Nonstoichiometry and electrocoloration due to injection of Li+ and O2− ions into lithium niobate crystals

Coulometric titration of substituted LixLa(2−x)/3 TiO3

Bremsstrahlung Emissivity of a Proton-Electron Plasma in a Strong Magnetic Field

Solder fatigue failures in a new designed power module under Power Cycling

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