WELL-DEFINED OLIGO(PYRROLE-2,5-DIYL)S BY THE ULLMANN REACTION

The Ullmann coupling reaction has been used to polymerize N-t-BOC-2,5- dibromopyrrole into well-defined oligo(pyrrole-2,5-diyl)s. After optim ization of the reaction conditions, i.e. using 1 wt equiv of Cu-bronze in DMF at 100 degrees C for 1 h, oligomers up to 25 repeating pyrrole units are obtained. Starting from 5,5'- and 5,5''-dibrominated N-t-BO C protected bi- and terpyrrole as monomers, the polymerization is slow er and a lower degree of polymerization is observed, yielding oligomer s with an even lower molecular weight than those resulting from N-t-BO C-2,5-dibromopyrrole. The first 20 oligomers of poly(N-t-BOC-pyrrole) have been isolated by preparative HPLC. Characterization of the indivi dual oligomers shows that they ah are hydrogen terminated and possess a perfect 2,5-linkage: oligo(pyrrole-2,5-diyl)s. The isolated oligomer s have been used to study the optical and electrical properties of the oligomers as a function of chain length.