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The Method of Direct and Reverse Phase Portraits as a Tool for Systematizing the Results of Studies of Phase Transitions in Solutions of Thermosensitive Polymers.

Akhat S BakirovYeldar KopishevKaisarali KadyrzhanElvira DonbaevaAigerim ZhaxybayevaMarat DuisembiyevFaiziya SuyundikovaIbragim Suleimenov
Published in: Gels (Basel, Switzerland) (2024)
It is shown that a more than significant amount of experimental data obtained in the field of studying systems based on thermosensitive hydrophilic polymers and reflected in the literature over the past decades makes the issue of their systematization and classification relevant. This, in turn, makes relevant the question of choosing the appropriate classification criteria. It is shown that the basic classification feature can be the number of phase transition stages, which can vary from one to four or more depending on the nature of the temperature-sensitive system. In this work, the method of inverse phase portraits is proposed for the first time. It was intended, among other things, to identify the number of phase transition stages. Moreover, the accuracy of this method significantly exceeds the accuracy of the previously used method of direct phase portraits since, for the first time, the operation of numerical differentiation is replaced by the operation of numerical integration. A specific example of the application of the proposed method for the analysis of a previously studied temperature-sensitive system is presented. It is shown that this method also allows for a quantitative comparison between the results obtained by the differential calorimetry method and the turbidimetry method. Issues related to increasing the resolution of the method of direct phase portraits are discussed.
Keyphrases
  • machine learning
  • deep learning
  • systematic review
  • high resolution
  • electronic health record
  • artificial intelligence
  • mass spectrometry
  • sensitive detection
  • fluorescent probe
  • case control
  • simultaneous determination