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Hyperbranched Polyalkoxysiloxanes via AB 3 ‐Type Monomers
Author(s) -
Jaumann Manfred,
Rebrov Eugene A.,
Kazakova Valentina V.,
Muzafarov Aziz M.,
Goedel Werner A.,
Möller Martin
Publication year - 2003
Publication title -
macromolecular chemistry and physics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.57
H-Index - 112
eISSN - 1521-3935
pISSN - 1022-1352
DOI - 10.1002/macp.200390067
Subject(s) - molar mass , polymer , monomer , size exclusion chromatography , polymerization , polymer chemistry , chemistry , mass spectrometry , molecular mass , molar mass distribution , analytical chemistry (journal) , organic chemistry , chromatography , enzyme
We have synthesized polyethoxysiloxanes starting from the AB 3 ‐type monomers triethoxysilanol and acetoxytriethoxysilane. The polymers are liquid and soluble in organic solvents. 29 Si NMR spectroscopy and MALDI‐ToF mass spectrometry analyses show that the polymers have a hyperbranched structure with additional internal cyclization. 29 Si NMR spectroscopy indicates that the polymer synthesized from acetoxytriethoxysilane is less branched than the polymer synthesized from triethoxysilanol. Analysis of the molar mass and mass distribution of the polymers via size exclusion chromatography (calibrated via MALDI‐ToF MS and viscosimetry) yields a molar mass of M n ≈ 2 kg · mol −1 and M w ≈ 8 kg · mol −1 for polymers synthesized from triethoxysilanol. The molar mass of the polymers synthesized from acetoxytriethoxysilane can be controlled by variation of the polymerization time in the range of M n ≈ 1.8–12 kg · mol −1 and M w ≈ 2.1–2 200 kg · mol −1 .Photograph of a vial containing polyethoxysiloxane obtained from triethoxysilanol and a schematic drawing of the proposed molecular structure of the polymer.