| Patent application number | Description | Published |
|---|
| 20080287692 | Synthesis of cyclopentadiene derivatives - A compound of formula (X): | 11-20-2008 |
| 20090062491 | Metallocene Compounds - A bridged metallocene compound of formula (I) wherein: M is an atom of a transition metal; X, is a hydrogen atom, a halogen atom, or a hydrocarbon-based group; R1 is a C1-C40 hydrocarbon radical; R2 and R3, form together a condensed 3-7 membered ring; R4 is a hydrogen atom or a C1-C40 hydrocarbon radical; W is an aromatic 5 or 6 membered ring. | 03-05-2009 |
| 20090221772 | Metallocene Compounds - A bridged metallocene compound of formula (I) wherein: M is a transition metal; X, is a hydrogen atom, a halogen atom, or a hydrocarbon group optionally containing hetematoms; L is a divalent bridging group; R | 09-03-2009 |
| 20110021344 | Method for preparing non-metallocene ligands - A method of preparing supported catalysts useful for olefin polymerization is described. The catalysts comprise a Group 4 metal complex that incorporates a tridentate dianionic ligand. An activator mixture is first made from a boron compound having Lewis acidity and an excess of an alumoxane. The activator mixture is then combined with a support and the Group 4 metal complex to give a supported catalyst. The method provides an active, supported catalyst capable of making high-molecular-weight polyolefins. | 01-27-2011 |
| 20110021727 | Catalysts based on 2-(2-aryloxy)quinoline or 2-(2-aryloxy)dihydroquinoline ligands - Catalysts useful for polymerizing olefins are disclosed. The catalysts comprise an activator and a Group 4 metal complex that incorporates a dianionic, tridentate 2-(2-aryloxy)quinoline or 2-(2-aryloxy)dihydroquinoline ligand. In one aspect, supported catalysts are prepared by first combining a boron compound having Lewis acidity with excess alumoxane to produce an activator mixture, followed by combining the activator mixture with a support and the tridentate, dianionic Group 4 metal complex. The catalysts are easy to synthesize, support, and activate, and they enable facile production of high-molecular-weight polyolefins. | 01-27-2011 |
| 20110152480 | Catalysts for Polymerizing Olefins and Method Thereof - A solid catalyst component for polymerizing at least one olefin comprising Mg, Ti, at least one halogen, and at least one electron donor selected from arylsulfonates and arylsulfonyl derivatives of a specified formula | 06-23-2011 |
| 20110223633 | METHODS AND REAGENTS FOR ENRICHMENT AND CHARACTERIZATION OF PHOSPHORYLATED BIOMOLECULES - An affinity matrix comprising a metal ion covalently attached thereto and methods for making and using the same are described. The matrix has affinity for various phosphorylated biomolecules, such as phosphoproteins/phosphopeptides. The matrix may be used in a variety of different applications, including phospho-biomolecule (e.g., phosphoprotein and phosphopeptides) enrichment/purification and characterization applications. Also provided are kits and systems that include the matrix. | 09-15-2011 |
| 20120016092 | Catalysts based on quinoline precursors - Catalysts useful for polymerizing olefins are disclosed. The catalysts comprise a transition metal complex, an optional activator, and an optional support. The complex is the reaction product of a Group 3-6 transition metal source, an optional alkylating agent, and a ligand precursor comprising a 2-imino-8-anilinoquinoline or a 2-aminoalkyl-8-anilinoquinoline. The catalysts, which are easy to synthesize by in-situ metallation of the ligand precursor, offer polyolefin manufacturers good activity and the ability to make high-molecular-weight ethylene copolymers that have little or no long-chain branching. | 01-19-2012 |
