Cryptands and cryptates /
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| Format: | eBook |
| Language: | English |
| Published: |
London ; Hackensack, NJ :
World Scientific Publishing Europe Ltd.,
[2018]
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| Subjects: | |
| Online Access: | Connect to the full text of this electronic book |
Table of Contents:
- ch. 1 The Beginning of the Story: Crown Ethers
- ch. 2 The Birth of Cryptands and Cryptates
- ch. 3 Recognition of the Radius of s-Block Metal Ions by Cryptands
- ch. 4 Competitive Hosts for Alkali Metal Ions: Spherands and Derivatives
- ch. 5 The Coordination Chemistry of Ammonium and Oxonium
- ch. 6 The Age of Anion Coordination Chemistry
- ch. 7 The Appearance of Bistren Cryptands
- ch. 8 Bistren Cryptands Grow and Multiply
- ch. 9 The Formation of Dicopper(II) Bistren Cryptates and the Nature of their Cavity
- ch. 10 Anion Recognition by Dicopper(II) Bistren Cryptates: The Geometrical Factor
- ch. 11 Anion Fluorescence Sensing by Dimetallic Bistren Cryptates: The Fluorophore -Spacer - Receptor Paradigm
- ch. 12 Anion Fluorescence Sensing by Dimetallic Bistren Cryptates: The Indicator Displacement Paradigm
- ch. 13 Nucleotide Recognition and Sensing by a Dicopper(II) Bistren Cryptate
- ch. 14 Anion Inclusion by Hexaprotonated Bistrens: Halides
- ch. 15 Anion Inclusion by Hexaprotonated Bistrens: Oxoanions
- ch. 16 Recognition of Linear Dicarboxylates: The Hydrogen Bonding vs Metal - Ligand Interactions Contest
- ch. 17 Bistren Amides: Neutral Receptors that Recognise Anions only Through Hydrogen Bonding Interactions
- ch. 18 The Taming of Peroxide (By a Bistren Amide Cryptand)
- ch. 19 Coordination Chemistry of the Smallest Bistren Cryptand
- ch. 20 Size Exclusion Selectivity: The Case of Fluoride
- ch. 21 Pseudo-Cryptands: Closing the Receptor's Cavity with a Transition Metal
- ch. 22 Use of Cryptands to Make Automatic Molecular Burettes
- ch. 23 Cages in Everyday Life, Chemistry and Art.