Ring-opening polymerization activated monomer

Heterochain polymers produced by ring-opening polymerization contain the hetero-atoms in the main chain as well as in the monomer and the polymer chain competes with the monomer for the reaction with the propagating species. This competition leads to polymer transfer and back-biting reactions during the polymerization. Heterochain polymers are also susceptible to depolymerization by the ionic active species which are easily formed during processing. 

In recent years homoleptic lanthanide(III) tris(amidinates) and guanidinates have been demonstrated to exhibit extremely high activity for the ring-opening polymerization of polar monomers such as e-caprolactone and trimethylene... 

The first report of ROMP activity by a well-characterized Mo or W species was polymerization of norbornene initiated by W(CH-t-Bu)(NAr)(0-f-Bu)2 [122]. In the studies that followed, functionality tolerance, the synthesis of block copolymers, and ring-opening of other monomers were explored [30, 123]. Two important issues in ROMP concern the cis or trans nature of the double bond formed in the polymer and the polymer s tacticity. Tacticity is a consequence of the presence of two asymmetric carbons with opposite configuration in each monomer unit. The four ROMP polymers (using polynorbornene as an example) that have a regular structure are shown in Scheme 3. 

The opposite case is also worthy of consideration. cis-2,3>Epoxybutane is a meso compound but the two halves of the molecule, and particularly the two O—CH(CH3) bonds, are not equivalent but enantiotopic. Ring opening polymerization occurring selectively on one of the bonds converts the R, S) monomer into a succession of monomer units (R, / )—(/ , R)— and so on, or —(5, S)—(S, S)— and so on. A chiral initiator can effect an enantiotopic differentiation (281) and thus give rise to an optically active polymer with an excess of (R, R) or (S, S) units (81, 82). 

Some ring-opening polymerizations proceed by a different route called activated monomer (AM) polymerization, which typically involves a cationic or anionic species derived from the monomer. For example, cationic AM polymerization proceeds not with monomer, but with protonated monomer that reacts with the neutral functional end group of the propagating polymer... 

The ring-opening polymerization of dilactide (dimeric cyclic ester of lactic acid) allows the preparation of high molecular weight, optically active polyesters of lactic acid. The configuration of the asymmetric carbon atoms of the monomer is retained when the polymerization is initiated with SnCl4 or Et2Zn, for example ... 

Analysis of the 1H-NMR spectra of the crystalline, isotactic polymer obtained from cis- and trans-propylene oxide-/3-dj indicated that the polymerization reactions proceed through the ring opening of the monomer either by retention or by inversion of the configuration of the carbon atom attacked by the active end of the growing polymer chain (65). 

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