𝜈 | Molecule 1 : 1 Host | ||
Ka = | 1.18⋅106 | M-1 | |
Kd = | |||
logKa = | |||
T | 20.32 °C | ||
Energy | kJ mol-1 | kcal mol-1 | |||
---|---|---|---|---|---|
ΔG | = | -34.11 | -8.15 | ||
ΔH | = | -59.0 | -14.1 | ||
-TΔS | = | 24.89 | 5.95 | ||
J mol-1 K-1 | cal mol-1 K-1 | ||||
ΔS | = | -84.8 | -20.3 |
Detection Method: | Direct | ||
Assay Type: | Direct Binding Assay | ||
Technique: | Isothermal Titration Calorimetry | ||
Molecule: | syringe | ||
Partner: | syringe |
Solvent System | Single Solvent |
Solvent | Deuterium Oxide |
Citation: |
F. P. Schmidtchen, SupraBank 2024, The Anatomy of the Energetics of Molecular Recognition by Calorimetry: Chiral Discrimination of Camphor by α-Cyclodextrin (dataset). https://doi.org/10.34804/supra.20210928110 |
Link: | https://doi.org/10.34804/supra.20210928110 |
Export: | BibTex | RIS | EndNote |
Citation: |
F. P. Schmidtchen, Chemistry - A European Journal 2002, 8, 3522. |
Link: | https://doi.org/10.1002/1521-3765(20020802)8:15%3C3522::AID-CHEM3522%3E3.0.CO;2-X |
Export: | BibTex | RIS | EndNote |
The plot depicts the binding isotherm simulation of a 1:1 interaction of (-)-camphor (1.697792869269949e-05 M) and α-CD (0 — 3.395585738539898e-05 M).