Machine Learning in Thermochemistry: Unleashing Predictive Modelling for Enhanced Understanding of Chemical Systems
Keywords:
Machine learning, thermochemistry, Artificial IntelligenceAbstract
Machine Learning (ML) has become a game-changing tool in many scientific sectors, altering research and spurring progress in a wide range of fields. The incorporation of ML approaches has created new predictive modelling opportunities in the context of thermochemistry, enabling more accurate and efficient prediction of the thermodynamic parameters of chemical systems. The article emphasizes the use of machine learning techniques in thermochemistry, highlighting the potential advantages and difficulties encountered in this quickly expanding field. The application of these algorithms helps in the prediction of fundamental thermodynamic quantities, including enthalpy, entropy, heat capacity, and free energy, allowing researchers to learn more about the energetics of chemical reactions and the stability of intricate molecular systems. The article also discusses openness, accountability, and the appropriate use of these formidable tools to ensure scientific integrity and prevent potential biases. These issues are related to the ethical problems linked with the application of ML in thermochemistry. As a result of the application of machine learning to thermochemistry research, a new era of predictive modelling has begun, offering a variety of opportunities to understand the intricate workings of chemical systems. ML provides enormous promise for expediting scientific discovery and improving our comprehension of thermodynamics in chemistry by eliminating obstacles and incorporating moral principles.
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