Multipoint molecular recognition within a calix[6]arene funnel complex
Author:
Publisher
Proceedings of the National Academy of Sciences
Subject
Multidisciplinary
Reference18 articles.
1. Structure and binding properties of water-soluble cavitands and capsules
2. Selective Molecular Recognition, C−H Bond Activation, and Catalysis in Nanoscale Reaction Vessels
3. Reversible Coordinative Bonds in Molecular Recognition
4. Recent Advances in Zinc Enzymology
5. Calixarene-Based Copper(I) Complexes as Models for Monocopper Sites in Enzymes
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4. Selective Metal‐ion Complexation of a Biomimetic Calix[6]arene Funnel Cavity Functionalized with Phenol or Quinone;Chemistry – A European Journal;2022-12-05
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