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Macrocyclic Ligands: Functional Host Guest Systems.

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Macrocyclic Ligands: Functional Host Guest Systems. Post Graduate Lecture Course ... 'Molecular Dewar' Ligand Oxidation/Reduction. Two types: Non innocent ligands ... – PowerPoint PPT presentation

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Title: Macrocyclic Ligands: Functional Host Guest Systems.


1
Macrocyclic Ligands Functional Host Guest
Systems.
  • Post Graduate Lecture Course
  • February 2000
  • Lecture 5

2
Kinetic Stability of Macrocyclic Ligand Complexes
  • Ligand dissociation
  • T1/2 22 days in
  • 6.1 M HCl
  • 107x slower than linear complex
  • Kinetic Macrocycle Effect

3
Factors Affecting Rate of Ligand Dissociation
  • Ring Size
  • eg for Ni2 complexes of N2O2 macrocycles
  • 14 gt 15 gt 16 lt 17
  • Metal Ion
  • Donor atoms (ligand field strength)
  • Ligand flexibility
  • pH

4
Redox Behaviour of Macrocycle Complexes
  • Macrocyclic ligands support metal ions in unusual
    oxidation states.
  • Prearranged donor set
  • strong ligand field
  • slow ligand dissociation
  • Protected metal ion environment

5
High Oxidation States
  • Nickel(III) and copper(III) N4-macrocycles
  • Cu(Ln)2 ? Cu(Ln)3
  • E1/2/V T1/2/s
  • L1 1.00 3
  • L2 1.03 60
  • L3 1.07 0.6
  • L4 1.09 1.9

6
Redox properties
  • Macrocycles tend to lower oxidation potentials,
    making CuIII, NiIII, PtIV, AgIII etc accessible.
  • Also stabilise lower oxidation states.
  • eg NiI, CoI, FeI.
  • Ligand oxidation/reduction.
  • Non-innocence.

7
Example
  • Ni(L)2 catalysed epoxidation of alkenes
  • Stabilisation of NiIV intermediate
  • Kochi, J. Amer. Chem. Soc., 1987, 26, 908.

8
Stabilisation of Unusual Oxidation States
  • Stabilisation of RhII, PdIII and AuII.
  • M(L)2n ? M(L)2(n1)
  • L trithiacyclononane (ttcn)
  • Molecular Dewar

9
(No Transcript)
10
Ligand Oxidation/Reduction
  • Two types
  • Non innocent ligands
  • eg porphyrins - donate or accept electrons into ?
    - system
  • oxidative dehydrogenation/reductive hydrogenation
  • Designed redox active ligands
  • organic eg quinones
  • organometallic eg ferrocenes

11
Example
12
Designed Redox Active Ligands
  • Some examples shown below

13
Sensors
  • To sense a substrate and report its presence
  • Requires
  • A Receptor Site (preferably substrate specific)
  • A signalling unit
  • should change some property in the presence of
    the substrate
  • should preferably do so reversibly
  • Communication between sites

14
Redox Sensing of Na Ions
15
Redox Switch Ion Transport
16
A Photochemical Switch
  • Complexation of K switches on fluorescence

17
Ion Selective Electrodes
  • Incorporation of L1 into an electrode enables
    electrochemical detection of Ag ions.
  • Detection Limit 3 x 10-7M
  • Selectivity (KM/KAg) gt10-3 in worst case (Hg2)
    and typically 10-5 - 10-6.
  • General difficulty in finding
  • suitably selective hosts.
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