Synthesis, characterization and ethylene polymerization by metallasilsesquioxane

Abstract: a Soluble complexes of group (IV) metallocenes anchored on a substituted polyhedral oligomeric silsesquioxane trisilanol support were prepared and characterized. These catalyst precursors formulated as [M(O^O^O)X] are found to be active in polymerization of ethylene at high temperature in combination with ethylaluminum sesquichloride (Et 3 Al 2 Cl 3, EASC) as co-catalyst. The polyethylene obtained by these catalysts is linear, crystalline and displays narrow dispersity. The unique low molecular weight PE forme… Show more

“…Under the same reaction conditions, unless for a lower ethylene pressure (20.7 bar), the anchored group (IV) metal complexes 119-125 were evaluated in polymerization of ethylene in combination with EASC. 141,142 According to data, for complexes 119-122 the achieved productivities were in the range values 2.5-42.1 KgPE gcatalyst -1 h -1 with the overall order of activity 119>120>121>122. By changing metal active sites, titanium based complex 122a exhibited better productivity than zirconium-or hafnium-POSS complexes (122a>122b>122c).…”

POSS nanostructures in catalysis

“…Under the same reaction conditions, unless for a lower ethylene pressure (20.7 bar), the anchored group (IV) metal complexes 119-125 were evaluated in polymerization of ethylene in combination with EASC. 141,142 According to data, for complexes 119-122 the achieved productivities were in the range values 2.5-42.1 KgPE gcatalyst -1 h -1 with the overall order of activity 119>120>121>122. By changing metal active sites, titanium based complex 122a exhibited better productivity than zirconium-or hafnium-POSS complexes (122a>122b>122c).…”

POSS nanostructures in catalysis

“…Silseskwioksany z powodzeniem stosuje siê jako sk³adniki uk³adów katalitycznych w reakcjach metatezy [90], epoksydacji [91][92][93][94], hydroformylowania [95], Dielsa-Aldera [96] oraz polimeryzacji [97]. W ostatnich latach podjêto tak¿e próby otrzymywania silseskwioksanów z wbudowanymi atomami metali przejoeciowych, np.…”

Silsesquioxanes and their application in the synthesis of polymeric materials

“…POSSs are known as hybrid organic-inorganic nanocomposites -the inorganic core provides stability to the molecule and organic arms can establish its specific properties [7][8][9][10][11]. In particular, due to the highly symmetrical three-dimensional nature of their nucleus, POSSs are good precursors for the production of hybrid organic-inorganic materials [6,12] and these nanomaterials have recently shown great or advantageous functional properties for a wide range of technological applications, such as dendritic precursors [13][14][15][16], polymer precursors [17,18], as precursors for developing liquid crystals [19,20], homogeneous and heterogeneous catalysis [21,22], electroactive films [23], additives [24,25], antibacterial [26], and also used in thin films and coatings for various applications, including nanocomposites [10,11,27]. Thus, silsesquioxanes containing the chlorine element at their ends, such as octakis(3-chloropropyl)octasilsesquioxane, can be easily modified by the organic/inorganic process.…”

Silsesquioxane organofunctionalized with 4-amino-3-hydrazino-5-mercapto-1,2,4-triazole: Preparation and subsequent reaction with silver and potassium hexacyanoferrate(III) for detection of l-cysteine