Critical Appraisal of Kinetic Calculation Methods Applied to Overlapping Multistep Reactions

Muravyev, Nikita V.; Пивкина, Алла Н.; Koga, Nobuyoshi

doi:10.3390/molecules24122298

Cited by 66 publications

(43 citation statements)

References 58 publications

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“…On the other hand, the Friedman method and the incremental modified Vyazovkin method provided (as expected) a different course of E-α dependence, which was found to almost always cover the whole E 1 -E 2 range. Similar conclusion was reported also in [28] for overlaps of sub-processes with opposite I values. (b) Based on the presence and shape of the over-and undershoots manifesting from the integral and differential isoconversional methods, a guide to estimation of the true E 1 and E 2 values utilizing a combined interpretation of the integral and differential approaches was introduced for the JMA asymmetry and confirmed also for AC model with opposite (positive) asymmetry.…”

Section: Discussionsupporting

confidence: 89%

“…Most of these papers provide qualitative testing of the considered methodologies in only few types of complex process situations. An exception from this trend is the recent study by Muravyev et al [28], who excellently summarize the current methodological tools utilized in the field of kinetic analysis and test the particular methodologies in various complex-process scenarios. Despite this great paper, we still feel that a highly systematic study, delivered via a series of papers evaluating the performance of the methods of kinetic analysis under various different types of complex-process scenarios (including the influences of, e.g., the number and type of involved reaction mechanisms and overall reaction scheme, as well as the specific simulation conditions such as the degree of overlap, its change with the range of applied heating rates, or relative intensity of the involved sub-processes) may be of use to the thermo-analytic community.…”

Section: Introductionmentioning

confidence: 99%

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Activation Energy Determination in Case of Independent Complex Kinetic Processes

Luciano

Svoboda

2019

Processes

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Theoretically simulated kinetic data were used to evaluate the performance of the most common isoconversional methods of kinetic analysis in complex-process scenarios with two independent overlapping processes exhibiting nucleation-growth kinetics, and further expand the conclusions for the autocatalytic kinetic processes with positive asymmetry. In close-to-real-life situations all the integral isoconversional methods provided practically indistinguishable E-α outcomes. The Friedman and incremental modified Vyazovkin methods results in significant over- and undershoots. However, the combined utilization of the integral and differential isoconversional methods was demonstrated to greatly contribute to the interpretation of the E-α dependences and estimation of E1 and E2—the conceptual evaluation involving positions of inflection points and plateaus is introduced. The influence of the range of applied heating rates q+ on the course of E-α dependences was studied. In this regard, the performance of the isoconversional methods changes significantly with both, the consistence of the shape of the complex kinetic curve and weighted presence of full overlaps of the involved sub-processes.

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Section: Discussionsupporting

confidence: 89%

Section: Introductionmentioning

confidence: 99%

Activation Energy Determination in Case of Independent Complex Kinetic Processes

Luciano

Svoboda

2019

Processes

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“…It needs to be stressed that checking for potential systematic variation of α p with β should be taken as a general prerequisite for using the Kissinger method. The existence of such variation can be an indication of the process complexity as discussed by Muravyev et al [8]. They have also demonstrated that even a moderate change of 0.06 in α p , caused by a change of β from 1 to 10 K min −1 , can result in a systematic error in E as large as 15%.…”

Section: Basics Of the Methodsmentioning

confidence: 77%

Kissinger Method in Kinetics of Materials: Things to Beware and Be Aware of

Vyazovkin

2020

Molecules

160

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The Kissinger method is an overwhelmingly popular way of estimating the activation energy of thermally stimulated processes studied by differential scanning calorimetry (DSC), differential thermal analysis (DTA), and derivative thermogravimetry (DTG). The simplicity of its use is offset considerably by the number of problems that result from underlying assumptions. The assumption of a first-order reaction introduces a certain evaluation error that may become very large when applying temperature programs other than linear heating. The assumption of heating is embedded in the final equation that makes the method inapplicable to any data obtained on cooling. The method yields a single activation energy in agreement with the assumption of single-step kinetics that creates a problem with the majority of applications. This is illustrated by applying the Kissinger method to some chemical reactions, crystallization, glass transition, and melting. In the cases when the isoconversional activation energy varies significantly, the Kissinger plots tend to be almost perfectly linear that means the method fails to detect the inherent complexity of the processes. It is stressed that the Kissinger method is never the best choice when one is looking for insights into the processes kinetics. Comparably simple isoconversional methods offer an insightful alternative.

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“…It is difficult to determine whether the isoconversional or model-fitting method would provide more accurate predictions, therefore by using both the greatest reliability is achieved [ 32 ]. It should be noted that thermal decomposition of solid is quite a complex process [ 33 , 34 ] and determination of the kinetic parameters for the thermal decomposition is not always straightforward. For a successful kinetic analysis, examination of different kinetic calculation methods should go along with rigorous physicochemical insight on the process.…”

Section: Introductionmentioning

confidence: 99%

“…Nowadays, specific commercial software programmes for calculating kinetics parameters such as Kinetics Neo (Netzsch), AKTS (Advanced Kinetic and Technology Solution), Kinetics2015 (GeoIsoChem) are available and can assist researchers in the field of kinetic analysis of the solid state. Since the scope of this review is on the thermal stability of drugs, readers interest in further details about solid-state kinetics can refer to the following references [ 25 , 26 , 28 , 29 , 30 , 31 , 32 , 33 , 34 , 35 , 36 , 37 , 38 ]…”

Section: Introductionmentioning

confidence: 99%

Thermal Stability of Amorphous Solid Dispersions

Jelić¹

2021

Molecules

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Amorphous solid dispersion drug delivery systems (ASD DDS) were proved to be efficient for the enhancement of solubility and bioavailability of poorly water-soluble drugs. One of the major keys for successful preparation of ASD is the selection of appropriate excipients, mostly polymers, which have a crucial role in improving drug solubility and its physical stability. Even though, excipients should be chemically inert, there is some evidence that polymers can affect the thermal stability of active pharmaceutical ingredients (API). The thermal stability of a drug is closely related to the shelf-life of pharmaceutical products and therefore it is a matter of high pharmaceutical relevance. An overview of thermal stability of amorphous solids is provided in this paper. Evaluation of thermal stability of amorphous solid dispersion is perceived from the physicochemical perspective, from a kinetic (motions) and thermodynamic (energy) point of view, focusing on activation energy and fragility, as well all other relevant parameters for ASD design, with a glance on computational kinetic analysis of solid-state decomposition.

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Critical Appraisal of Kinetic Calculation Methods Applied to Overlapping Multistep Reactions

Cited by 66 publications

References 58 publications

Activation Energy Determination in Case of Independent Complex Kinetic Processes

Activation Energy Determination in Case of Independent Complex Kinetic Processes

Kissinger Method in Kinetics of Materials: Things to Beware and Be Aware of

Thermal Stability of Amorphous Solid Dispersions

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