1. Synthesis and Structure of the Helicate (M)-(–)-[Pt2 {(R,R)-tetraphos}2](CF3SO3)4 · 4.5 H2O
- Author
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Heather J. Kitto, S. Bruce Wild, Johann Zank, Anthony C. Willis, and A. David Rae
- Subjects
Turn (biochemistry) ,Crystallography ,Chemistry ,Stereochemistry ,Molecule ,chemistry.chemical_element ,General Chemistry ,Crystal structure ,Twist ,Chirality (chemistry) ,Platinum ,Ring (chemistry) ,Alpha helix - Abstract
The complex (M)-(-)-[Pt2{(R,R)-tetraphos}2](CF3SO3)4 · 4.5 H2O, where tetraphos = 1,1,4,7, 10,10-hexaphenyl-1,4,7,10-tetraphosphadecane, has been isolated and structurally characterized. The compound crystallizes in the space group C2 with two crystallographically different, but very similar, cations in the structure, each of which contains a 2-fold axis coincident with the crystallographic 2-fold axis. Each independent cation of the salt consists of a double-stranded, diplatinum(II) helicate that completes a ca. one-eighth turn of a double α-helix in the M direction, as evidenced by the angle between the two, non-orthogonal PtP4 square planes in each of the independent molecules. A feature of the structures is the 10-membered ring containing the two platinum atoms and the four chiral phosphorus stereocentres of R configuration; this ring has a distorted twist-boat-chair-boat conformation of λ helicity, which is responsible for the M twist of the helicate.
- Published
- 2004
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