𝜈 | Molecule 1 : 1 Host | ||
Ka = | 9.36⋅104 | ± 2200.0 | M-1 |
Kd = | |||
logKa = | |||
T | 25.0 °C | ||
Energy | kJ mol-1 | kcal mol-1 | |||
---|---|---|---|---|---|
ΔG | = | -28.38 | ± 0.06 | -6.78 | ± 0.01 |
Detection Method: | Direct | |||
Assay Type: | Direct Binding Assay | |||
Technique: | Fluorescence | |||
𝛌ex | = | 301.0 nm | ||
𝛌em | = | 354.0 nm |
Solvent System | Single Solvent |
Solvent | water |
Citation: |
Z. Tao, Q. Zhu, Q. Tang, S. Xue, Y. Huang, J. Wang, SupraBank 2024, Determination of thiabendazole in aqueous solutions using a cucurbituril-enhanced fluorescence method (dataset). https://doi.org/10.34804/supra.20240314530 |
Link: | https://doi.org/10.34804/supra.20240314530 |
Export: | BibTex | RIS | EndNote |
Citation: |
Y. Huang, J. Wang, S.-F. Xue, Z. Tao, Q.-J. Zhu, Q. Tang, J Incl Phenom Macrocycl Chem 2011, 72, 397–404. |
Link: | https://doi.org/10.1007/s10847-011-9999-1 |
Export: | BibTex | RIS | EndNote | |
The plot depicts the binding isotherm simulation of a 1:1 interaction of Thiabendazole (0.00021367521367521368 M) and CB7 (0 — 0.00042735042735042735 M).