Crystallization kinetics of glassy Se90In10-xAgx alloys: Observation of Mayer-Neldel rule

Singh, Kuldip; Mehta, N.; Sharma, S.K.; Кумар, Ашок

doi:10.2298/pac1603137s

Cited by 2 publications

(2 citation statements)

References 31 publications

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“…Chalcogenide glasses find their application in fabrication of solid state devices which are helpful both in scientific and technological fields [1]. These semiconductors express very specific characteristics such as high transmittance in IR region, high non-linear refractive index, low phonon energy, mouldability, etc, that are advantageous to optical and opto-mechanical designers [2].…”

Section: Introductionmentioning

confidence: 99%

Correlation between thermo-mechanical properties and network structure in Pb-As2S3 quasibinar chalcogenides

Šiljegović

Skuban

Štrbac

et al. 2021

PAC

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This paper is concerned with establishing the correlation between some mechanical, thermal and structural properties of Pbx(As2S3)100-x glassy samples, x = 1, 2 and 3 at.%. Measurements of mechanical parameters were performed using a Fischerscope HM2000 S nanoindentation device. The obtained results indicated decrease in the microhardness as a function of the doping element content, as well as a pronounced normal indentation size effect (ISE) phenomenon in the range of lower indentation loads. In order to describe the microhardness data in the ISE regime and to determine the load independent microhardness value, the MPRS model was used. The increase in glass transition temperature with heating rate observed in DSC curves was described according to the Lasocka equation. The activation energy of softening process was evaluated using the Kissinger?s method. The KAS model was applied to estimate the activation energy as a function of the conversion rate. Raman measurements were employed to investigate structural changes due to Pb doping.

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Section: Introductionmentioning

confidence: 99%

Correlation between thermo-mechanical properties and network structure in Pb-As2S3 quasibinar chalcogenides

Šiljegović

Skuban

Štrbac

et al. 2021

PAC

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“…However, everyone agrees that there is an explanation, namely, the exponential distribution of activation barriers [15,[70][71][72][73]. In this way, in spite of the fact that both the MNR and concept of the isokinetic relationship are widely used, the microscopic origin of the MNR and, therefore, the physical meaning of the EMN are still a topic of discussion in the literature [74][75][76]. Many authors look forward to further developments in this interesting and important area [77].…”

Section: Introductionmentioning

confidence: 99%

The Basic Theorem of Temperature-Dependent Processes

Сапунов

Saveljev

Voronov

et al. 2021

Thermo

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The basic theorem of isokinetic relationships is formulated as “if there exists a linear correlation “structure∼properties” at two temperatures, the point of their intersection will be a common point for the same correlation at other temperatures, until the Arrhenius law is violated”. The theorem is valid in various regions of thermally activated processes, in which only one parameter changes. A detailed examination of the consequences of this theorem showed that it is easy to formulate a number of empirical regularities known as the “kinetic compensation effect”, the well-known formula of the Meyer–Neldel rule, or the so-called concept of “multi-excitation entropy”. In a series of similar processes, we examined the effect of different variable parameters of the process on the free energy of activation, and we discuss possible applications.

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Crystallization kinetics of glassy Se90In10-xAgx alloys: Observation of Mayer-Neldel rule

Cited by 2 publications

References 31 publications

Correlation between thermo-mechanical properties and network structure in Pb-As2S3 quasibinar chalcogenides

Correlation between thermo-mechanical properties and network structure in Pb-As2S3 quasibinar chalcogenides

The Basic Theorem of Temperature-Dependent Processes

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