AI Article Synopsis
- Large-ring cycloalkylamines are less basic than smaller cycloalkylamines like cyclohexylamine, despite having similar structural features.
- The study involved precise measurements of enthalpy and entropy for the protonation process using isothermal titration calorimetry in a methanol-water mixture and identified discrepancies with pure water data.
- Findings indicate that the reduced basicity is primarily due to a more negative entropy of protonation, driven by increased steric hindrance during solvation rather than changes in enthalpy.
Article Abstract
Large-ring cycloalkylamines are slightly less basic than other cycloalkylamines such as cyclohexylamine, even though all have tetrahedral carbons and are strain-free. To understand why, enthalpy and entropy for protonation of a series of cycloalkylamines were accurately determined by isothermal titration calorimetry in 3 : 1 methanol-water. The study required resolving a discrepancy between these measurements and those in pure water. The data show that the lower basicity of large-ring cycloalkylamines is not due to enthalpy but to a more negative entropy of protonation. Computations show that this can be attributed in part to an entropy of conformational mixing, but the dominant contribution is steric hindrance to solvation, also corroborated by computation.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8163384 | PMC |
| http://dx.doi.org/10.1039/d0sc02931a | DOI Listing |
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Enthalpic and entropic contributions to the basicity of cycloalkylamines.
Chem Sci
July 2020
Department of Chemistry & Biochemistry, University of California-San Diego La Jolla California 92093-0358 USA
Article Synopsis
- Large-ring cycloalkylamines are less basic than smaller cycloalkylamines like cyclohexylamine, despite having similar structural features.
- The study involved precise measurements of enthalpy and entropy for the protonation process using isothermal titration calorimetry in a methanol-water mixture and identified discrepancies with pure water data.
- Findings indicate that the reduced basicity is primarily due to a more negative entropy of protonation, driven by increased steric hindrance during solvation rather than changes in enthalpy.
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