Robert N. Johnson scite author profile

Chromocene deposited on silica supports of high surface area forms a highly active catalyst for polymerization of ethylene. Polymerization is believed to occur by a coordinated anionic mechanism previously outlined. The catalyst formation step liberates cyclopentadiene and leads to a new divalent chromium species containing a cyclopentadienyl ligand. The catalyst has a very high chain‐transfer response to hydrogen which permits facile preparation of a full range of molecular weights. Catalyst activity increases with an increase in silica dehydration temperature, chromium content on silica, and ethylene reaction pressure. The temperature‐activity profile is characterized by a maximum near 60°C, presumably caused by a deactivation mechanism involving silica hydroxyl groups. A value of 72 was estimated for the ethylene–propylene reactivity ratio (r1). Linear, highly saturated polymers are normally prepared below 100°C. By contrast with other commercial polyethylenes, the chromocene catalyst produces polyethylenes of relatively narrow molecular weight distribution. Above 100°C, unsaturated, branched polymers or oligomers are formed by a simultaneous polymerization–isomerization process.

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Ethylene polymerization with supported bis(triphenylsilyl) chromate catalysts

Carrick¹,

Turbett²,

Karol³

et al. 1972

J. Polym. Sci. A‐1 Polym. Chem.

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Bis(triphenylsilyl) chromate is an active catalyst for ethylene polymerization without further treatment or additives. Catalytic activity is markedly increased when the compound is deposited on silica–alumina and is further increased if it is deposited on silica and then treated with an aluminum alkyl. Polymer molecular weight can be controlled by reaction temperature, hydrogen addition, support type, and reducing agent structure to give polymers ranging in melt index from essentially zero to > 100. In the supported catalysts the bis(triphenylsilyl) chromate appears to be bound to the support and to undergo a reduction step either by reaction with ethylene or with aluminum alkyl prior to polymerization. The active site is envisioned as chromium alkyl, bound to the support, with propagation occurring by insertion of the monomer into a CrC bond. Chain termination is by chain transfer to monomer.

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Virtue and Right

Johnson¹

2003

Ethics

108

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The Addition of Hydrogen Chloride to Aliphatic Allenic Hydrocarbons¹

Jacobs¹,

Johnson²

1960

J. Am. Chem. Soc.

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A proton magnetic resonance study of the distal histidine of soybean Leghemoglobin. Effects of nicotinate and other heme ligands.

Johnson¹,

Bradbury²,

Appleby³

1978

Journal of Biological Chemistry

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Robert N. Johnson

Chromocene catalysts for ethylene polymerization: Scope of the polymerization

Ethylene polymerization with supported bis(triphenylsilyl) chromate catalysts

Virtue and Right

The Addition of Hydrogen Chloride to Aliphatic Allenic Hydrocarbons¹

A proton magnetic resonance study of the distal histidine of soybean Leghemoglobin. Effects of nicotinate and other heme ligands.

Contact Info

Product

Resources

About

Robert N. Johnson

Chromocene catalysts for ethylene polymerization: Scope of the polymerization

Ethylene polymerization with supported bis(triphenylsilyl) chromate catalysts

Virtue and Right

The Addition of Hydrogen Chloride to Aliphatic Allenic Hydrocarbons1

A proton magnetic resonance study of the distal histidine of soybean Leghemoglobin. Effects of nicotinate and other heme ligands.

Contact Info

Product

Resources

About

The Addition of Hydrogen Chloride to Aliphatic Allenic Hydrocarbons¹