Vapor deposition experiments show 2-ethyl-1-hexanol glass kinetic stability rises sharply with slower deposition rates, attributed to surface mobility more than 4 orders of magnitude lower than ethylcyclohexane at 0.85 Tg.
Hydrogen Bonding Slows Down Surface Diffusion of Molecular Glasses,
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ML model using ideal entropy plus simulation features (energy above hull, heat capacity change, icosahedral fraction) predicts metallic glass critical cooling rates with R²=0.78 in leave-one-chemical-system-out cross-validation on 34 alloys.
citing papers explorer
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Limited surface mobility inhibits stable glass formation for 2-ethyl-1-hexanol
Vapor deposition experiments show 2-ethyl-1-hexanol glass kinetic stability rises sharply with slower deposition rates, attributed to surface mobility more than 4 orders of magnitude lower than ethylcyclohexane at 0.85 Tg.
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Machine learning metallic glass critical cooling rates through elemental and molecular simulation based featurization
ML model using ideal entropy plus simulation features (energy above hull, heat capacity change, icosahedral fraction) predicts metallic glass critical cooling rates with R²=0.78 in leave-one-chemical-system-out cross-validation on 34 alloys.