Application of Physical and Chemical Equations and Algorithms in Materials Science: Comprehensive Characterization of Hydrogels and Novel Compounds for Lithium Batteries and Performance Prediction

For characterization of the electrical, thermal, mechanical, and electrochemical properties of hydrogels and their assessment using MATLAB software, the relevant data of the desired compositions are initially collected. This stage includes gathering chemical and physical information of the hydrogel's raw materials, along with environmental specifications and experimental conditions. Subsequently, through preprocessing steps such as shape corrections, removal of irrelevant data, and preparation of inputs, mathematical equations are formulated to compute various hydrogel properties. In the next stage, MATLAB programming language is employed to execute the formulated equations. These codes derive the electrical, thermal, mechanical, and electrochemical characteristics of hydrogels based on models and input data. The results obtained from these models are then analyzed to obtain practical information and scientific interpretations regarding the properties of hydrogels. In the final phase, the analysis results are presented in the form of technical or scientific reports, and the models are upgraded based on feedback and the obtained results. This process enables researchers and engineers in the fields of chemistry, materials science, biomedical engineering, micro and nanoelectronics, batteries, and energy to meticulously examine new hydrogel compositions and their properties, and utilize them in various designs, including electronic, medical, or industrial applications. This comprehensive approach thoroughly explores the innovative potential of hydrogels and ensures that their unique features are effectively utilized in advanced technologies