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Physical Properties Affecting Solubility02:19

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As for any solution, the solubility of a gas in a liquid is affected by the attractive intermolecular forces between solute and solvent species. Unlike solid and liquid solutes, however, there is no solute-solute intermolecular attraction to overcome when a gaseous solute dissolves in a liquid solvent since the atoms or molecules comprising a gas are far separated and experience negligible interactions. Consequently, solute-solvent interactions are the sole...
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The free energy change associated with dissolving a solute in a liter of solvent is called the free energy of a solution, ΔGsolution. The overall ΔGsolution is expressed as the balance of ΔGinteraction against the always-favorable free-energy of mixing, ΔGmixing. Solution formation is favorable if  ΔGsolution is less than zero, whereas it is unfavorable if ΔGsolution is greater than zero. In short, for a solution to form and complete dissolution to take place,...
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A solvent is a substance, most often a liquid, that can dissolve other substances. Here, the substance being dissolved is called a solute. When a solvent and a solute combine, they form a solution - a homogenous mixture of both the solvent and the solute. Water is a universal biological solvent. Its polar structure allows it to dissolve many other polar compounds. The ability of water to dissolve is governed by a balance between water molecules binding to each other and binding to the solute.
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The process of surrounding a solute with solvent is called solvation. It involves evenly distributing the solute within the solvent. The rule of thumb for determining a solvent for a given compound is that like dissolves like. A good solvent has molecular characteristics similar to those of the compound to be dissolved. For example, polar solutions dissolve polar solutes, and apolar solvents dissolve apolar solutes. A polar solvent is a solvent that has a high dielectric constant (ϵ...
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Solubility equilibria are established when the dissolution and precipitation of a solute species occur at equal rates. These equilibria underlie many natural and technological processes, ranging from tooth decay to water purification. An understanding of the factors affecting compound solubility is, therefore, essential to the effective management of these processes. This section applies previously introduced equilibrium concepts and tools to systems involving dissolution and precipitation.
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In an NMR sample, precise measurement of the absolute absorption frequencies of nuclei is difficult. A standard internal reference compound is added, and the frequency difference between the reference signal and sample signals is measured.
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Physics-Based Machine Learning Models Predict Carbon Dioxide Solubility in Chemically Reactive Deep Eutectic

Mood Mohan1, Omar N Demerdash1, Blake A Simmons2,3

  • 1Biosciences Division and Center for Molecular Biophysics, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, United States.

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|May 6, 2024
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Summary
This summary is machine-generated.

Machine learning models accurately predict carbon dioxide (CO2) solubility in chemically reactive deep eutectic solvents (DESs). This breakthrough accelerates the development of sustainable CO2 capture technologies using these eco-friendly solvents.

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Area of Science:

  • Environmental Chemistry
  • Computational Chemistry
  • Materials Science

Background:

  • Carbon dioxide (CO2) is a major greenhouse gas driving global warming.
  • Deep eutectic solvents (DESs) offer a sustainable and eco-friendly medium for CO2 capture.
  • Chemically reactive DESs show superior CO2 absorption compared to non-reactive DESs, but lack accurate predictive models for solubility.

Purpose of the Study:

  • To develop accurate machine learning (ML) models for predicting CO2 solubility in chemically reactive DESs.
  • To leverage physics-driven input features derived from quantum chemical methods.
  • To enable precise prediction of CO2 solubility, facilitating the design of advanced CO2 capture materials.

Main Methods:

  • Collected 214 data points on CO2 solubility in 149 chemically reactive DESs from published literature.
  • Utilized σ-profile descriptors, calculated via the COSMO-RS method, as physics-driven input features for ML models.
  • Trained and evaluated various ML models, including artificial neural networks (ANNs).

Main Results:

  • The developed ML models, particularly the ANN, demonstrated high accuracy in predicting CO2 solubility.
  • The best performing ANN model achieved an average absolute relative deviation of 2.94% on testing datasets.
  • COSMO-RS-derived σ-profile features proved effective for predicting bond formation, despite not explicitly modeling reaction profiles.

Conclusions:

  • Machine learning models can accurately predict CO2 solubility in chemically reactive DESs.
  • The developed models can significantly accelerate the design and application of effective DES-based CO2 capture systems.
  • This work provides a valuable computational tool for advancing sustainable CO2 capture strategies.