Quantum Chemical Prediction of Equilibrium Acidities of Ureas, Deltamides, Squaramides, and Croconamides | Zendy

Junming Ho | Zendy; Vincent E. Zwicker | Zendy; KwokYung Yuen | Zendy; Katrina A. Jolliffe | Zendy

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Quantum Chemical Prediction of Equilibrium Acidities of Ureas, Deltamides, Squaramides, and Croconamides

Author(s) -

Junming Ho,

Vincent E. Zwicker,

KwokYung Yuen,

Katrina A. Jolliffe

Publication year - 2017

Publication title -

the journal of organic chemistry

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.2

H-Index - 228

eISSN - 1520-6904

pISSN - 0022-3263

DOI - 10.1021/acs.joc.7b02083

Subject(s) - chemistry , substituent , thio , quantum chemical , hydrogen bond , ion , quantum chemistry , computational chemistry , chloride , quantum , receptor , dual (grammatical number) , combinatorial chemistry , molecule , organic chemistry , biochemistry , supramolecular chemistry , quantum mechanics , art , physics , literature

Robust quantum chemical methods are employed to predict the pK a 's of several families of dual hydrogen-bonding organocatalysts/anion receptors, including deltamides and croconamides as well as their thio derivatives. The average accuracy of these predictions is ∼1 pK a unit and allows for a comparison of the acidity between classes of receptors and for quantitative studies of substituent effects. These computational insights further explain the relationship between pK a and chloride anion affinity of these receptors that will be important for designing future anion receptors and organocatalysts.

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