Molecular Tectonics with Di- and Trinuclear Organotin Compounds.

Irán Rojas-LeónHazem AlnasrKlaus JurkschatMaría G Vasquez-RíosIrán F Hernández-AhuactziHerbert Höpfl

Published in: Chemistry (Weinheim an der Bergstrasse, Germany) (2018)

Di- and trinuclear organotin(IV) complexes, in which the metal atoms are separated by large aromatic connectors, are useful building blocks for self-assembly. This is demonstrated by the preparation of [1+1], [2+2], and [2+3] macrocyclic and cage-type structures in combination with organic aromatic dicarboxylates. The linkage of the metal atoms by organic binders and the option of varying the number of reactive M-X sites generate versatile building blocks enabling molecular tectonics instead of the node-based strategy generally employed in metallo-supramolecular self-assembly.

Keyphrases

water soluble
amino acid
biofilm formation
lymph node
single molecule
high resolution
gene expression
genome wide
pseudomonas aeruginosa
gram negative
cystic fibrosis
multidrug resistant
molecularly imprinted
hepatitis c virus
energy transfer
candida albicans