STOPPED-FLOW STUDY OF THE INTERACTION OF MGCL2-SUPPORTED ZIEGLER CATALYST WITH (ME)(N)SI(OET)(4-N) - A TOOL FOR UNDERSTANDING THE ACTIVE-SITES PRECURSORS AND THE CORRELATION TO STEREOSPECIFICITY
H. Mori et al., STOPPED-FLOW STUDY OF THE INTERACTION OF MGCL2-SUPPORTED ZIEGLER CATALYST WITH (ME)(N)SI(OET)(4-N) - A TOOL FOR UNDERSTANDING THE ACTIVE-SITES PRECURSORS AND THE CORRELATION TO STEREOSPECIFICITY, Macromolecular chemistry and physics, 199(4), 1998, pp. 613-618
The active sites precursors on a MgCl2-supported Ziegler catalyst and
the correlation to catalyst stereospecificity were investigated in the
initial stage of propene polymerization in terms of the interaction o
f a variety of ethoxysilanes with the structure (Me)(n)Si(OEt)(4-n). T
he kinetic study using the stopped-flow technique indicated that the i
nteraction of the catalyst with a variety of ethoxysilanes prevents fo
rmation of active sites, and the degree of inhibition depends upon the
number of ethoxy groups. It is considered that the values of propagat
ion rate constant on the isospecific active sites an essentially the s
ame regardless of the structure of the ethoxysilane, but the ratio of
the isospecific active sites to the total number of active sites depen
ds on the number of ethoxy groups. The same tendency in the variation
of the activity, the stereospecificity, and the kinetic parameters dep
ending on the number of ethoxy groups attached to a silane atom was ob
served regardless of whether the ethoxysilanes were treated with the c
atalyst or with triethylaluminium before polymerization.