Transition metal-based receptors

Electrochemical and Optical Sensing of Anion Systems by Transition Metal Based Receptors, Coord. Chem. Rev. 205, 131—55. 

Beer PD, Cadman J. Electrochemical and optical sensing of anions by transition metal based receptors. Coord Chem Rev 2000 205 131. 

Redox-Active Transition Metal-Based Receptors... 

In addition to transition-metal-based receptors, lan-thanoids have been used as a means to sense anions, by Parker and coworkers, as discussed in Section 1.6. ° In these systems, the anion directly coordinates to the metal, displacing existing ligands, and changes the environment of the lanthanoid. This is modulated as a change in the emission spectrum of the receptor. These receptors can be ratiometric in that there is an increase in the intensity of one band at the expense of the intensity of another. This ratiometric approach is an advantage as it means that the sensor can work without the knowledge of the absolute... 

Based on the above results they have concluded that the ligand groups circularly arranged on the lower rim of the calixarene cavity construct a novel cyclic metal receptor for selective extraction of transition metal cations. Results suggest that the fine tuning in molecular... 

Another interesting and potentially very useful group of calixarene-based anion receptors is represented by systems with appended transition metal complexes of 2,2-bipyridine units. Technically, these systems utilise classical hydrogen bonding interactions of amidic/urea functions hence, from this point of view, they do not differ from many other receptors. On the other hand, the covalent attachment of bipyridine complexes of ruthenium(II) or rhe-... 

Another class of metal-employing anion receptors is represented by structure 24 [23]. Its function is based on the incorporation of positively charged transition metal complexes directly into the calixarene skeleton. Such calixarenes with enhanced electron deficiency of the aromatic walls provide well-preor-ganised cavities suitable for anion inclusion. The corresponding rhenium [24], ruthenium, rhodium or iridium complexes of this type were prepared and studied for anion recognition [25,26]. 

Receptors Based on Other Transition Metals (Including Group 12) 142... 

Calix[ ]arenes are a family of macrocycles prepared by condensation reactions between n /v/ra-substituted phenols and n formaldehyde molecules under either base or acid catalysis. Different sizes of the macrocycles can be obtained (n = 4-20) (Stewart and Gutsche, 1999) depending on the exact experimental conditions, which were mastered in the 1960 s (Gutsche, 1998), but the most common receptors are those with n =4,6,8 (macrocycles with an odd number of phenol units are more difficult to synthesize). We use here the simplified nomenclature in which the number of phenolic units is indicated between square brackets and para substituents are listed first.4 Calixarenes, which can be easily derivatized both on the para positions of the phenolic units and on the hydroxyl groups, have been primarily developed for catalytic processes and as biomimics, but it was soon realized that they can also easily encapsulate metal ions and the first complexes with d-transition metal ions were isolated in the mid-1980 s (Olmstead et al., 1985). Jack Harrowfield characterized the first lanthanide complex with a calixarene in 1987, a bimetallic europium complex with p-terf-butylcalix[8]arene (Furphy etal., 1987). 

Another example described in Section 9.5.3 reports the synthesis and screening of a synthetic receptor library aimed at transition metal binding. Other similar examples have been reported recently. Burger and Clark Still (211) prepared ionophoric, cyclen-based libraries decorated by amino acid units and screened them for their ability to complex copper and cobalt ions Malin et al. (212) identified novel hexapeptidic technetium-binding sequences from the screening of cellulose-bound libraries and... 

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