Kenrick E Lewis, Age 92501 NW Cashmere Blvd, Fort Pierce, FL 34986

7087100, Aug 8, 2006

Oct 9, 2001

09/974503

Kenrick M. Lewis - Rego Park NY, US
Hua Yu - White Plains NY, US
Regina Nelson Eng - Pike Road AL, US
Sabrina R. Cromer - Mount Vernon NY, US
Chi-Lin O'Young - Poughkeepsie NY, US
Abellard T. Mereigh - Yonkers NY, US

General Electric Company - Schenectady NY

B22F 9/30
C22B 15/00
C22B 23/00
C22B 25/00

75362, 423604, 423618, 42359418, 977DIG 1

The present invention is a process for producing nanosized metal compounds. The preferred product is nanosized copper, nanosized copper (I) oxide, and nanosized copper (II) oxide. The process includes heating a copper metal precursor in a hydrocarbon preferably selected from alkylated benzenes, polyaromatic hydrocarbons, paraffins and/or naphthenic hydrocarbons. The heating is desirably at a temperature and time effective to convert, for example, the copper metal precursor to nanosized copper (II) oxide, nanosized copper (I) oxide and/or nanosized copper metal. Separation of the hydrocarbon is then performed. Recovering the solid product and recycle/reuse of the recovered hydrocarbon in subsequent preparations of nanosized metal and metal oxides may be performed. The nanosized metal oxides of the invention may additionally be converted to nanosized metal salts by reaction with the appropriate acids while dispersed in the hydrocarbons.

7153991, Dec 26, 2006

Oct 9, 2001

09/974266

Kenrick M. Lewis - Rego Park NY, US
James S. Ritscher - Marietta OH, US

General Electric Company - Schenectady NY

C07F 2/16

556472, 556466

A Direct Synthesis of making organohalosilanes with greater selectivity to the dialkyldihalosilane is disclosed herein. By using nanosized copper catalyst precursors, and preferably nanosized promoters as well, D/T values of greater than 10, and preferably greater than 15, are obtainable with silicon conversions in excess of 80 wt. %. Shorter induction times are realized using the nanosized copper catalysts in the Direct Synthesis. The nanosized copper catalyst precursors most preferably have an average particle size of less than 100 nanometers.

7339068, Mar 4, 2008

Oct 9, 2001

09/974092

Kenrick M. Lewis - Rego Park NY, US
Regina Nelson Eng - Pike Road AL, US
Sabrina R. Cromer - Mount Vernon NY, US
Abellard T. Mereigh - Yonkers NY, US
Chi-Lin O'Young - Poughkeepsie NY, US

Momentive Performance Materials Inc. - Wilton CT

C07F 7/04

556465, 556400, 556466, 556470

The present invention provides a process for using nanosized copper, nanosized copper oxides, nanosized copper chlorides, other nanosized copper salts, and mixtures thereof, as sources of catalytic copper in the Direct Synthesis of trialkoxysilanes of the formula HSi(OR)wherein R is an alkyl group containing from 1 to 6 carbon atoms inclusive. The nanosized copper, nanosized copper oxides, nanosized copper chlorides, other nanosized copper salts, and their mixtures of this invention have average particle sizes that are in the range from about 0. 1 to about 600 nanometers, preferably from about 0. 1 to about 500 nanometers, and most preferably from about 0. 1 to about 100 nanometers. Nanosized sources of catalytic copper afford high dispersion of catalytic sites on silicon and contribute to high reaction rates, high selectivity and high silicon conversion. The nanosized copper catalyst precursors of the invention permit the use of substantially reduced levels of copper compared to conventional practice.

7365220, Apr 29, 2008

Sep 29, 2005

11/238199

Kenrick Martin Lewis - Flushing NY, US
Hua Wang - Clifton Park NY, US

Momentive Performance Materials Inc. - Wilton CT

C07F 7/04

556482

A process is provided for separating a mixture of alkoxysilanes and alkanol, e. g. , the crude product effluent of the Direct Reaction of silicon metal with alkanol, which comprises:.

7429672, Sep 30, 2008

Jun 9, 2006

11/450538

Kenrick M. Lewis - Flushing NY, US
Rudolph A. Cameron - Bensalem PA, US
Karen Ritscher, legal representative - Cody WY, US

Momentive Performance Materials Inc. - Wilton CT

C07F 7/08
C07F 7/18

556470, 556472

This invention discloses a process to improve reaction stability in the Direct Synthesis of trialkoxysilanes. The process is particularly effective in the Direct Synthesis of triethoxysilane and its higher alkyl cognates providing improved triethoxysilane yields.

7495120, Feb 24, 2009

Dec 17, 2007

11/975787

Kenrick M. Lewis - Rego Park NY, US
Regina Nelson Eng - Pike Road AL, US
Sabrina R. Cromer - Mount Vernon NY, US
Abellard T. Mereigh - Yonkers NY, US
Chi-Lin O'Young - Poughkeepsie NY, US

Momentive Performance Materials Inc. - Albany NY

C07F 7/04

556465, 556400, 556466, 556470

The present invention provides a process for using nanosized copper, nanosized copper oxides, nanosized copper chlorides, other nanosized copper salts, and mixtures thereof, as sources of catalytic copper in the Direct Synthesis of trialkoxysilanes of the formula HSi(OR)wherein R is an alkyl group containing from 1 to 6 carbon atoms inclusive. The nanosized copper, nanosized copper oxides, nanosized copper chlorides, other nanosized copper salts, and their mixtures of this invention have average particle sizes that are in the range from about 0. 1 to about 600 nanometers, preferably from about 0. 1 to about 500 nanometers, and most preferably from about 0. 1 to about 100 nanometers. Nanosized sources of catalytic copper afford high dispersion of catalytic sites on silicon and contribute to high reaction rates, high selectivity and high silicon conversion. The nanosized copper catalyst precursors of the invention permit the use of substantially reduced levels of copper compared to conventional practice.

7652164, Jan 26, 2010

Nov 21, 2005

11/283614

Kenrick M. Lewis - Flushing NY, US
Abellard T. Mereigh - Mt. Vernon NY, US
Chi-Lin O'Young - Poughkeepsie NY, US
Rudolph A. Cameron - Bensalem PA, US

Momentive Performance Materials Inc. - Albany NY

C07F 7/02
C07F 7/04

556470, 556482, 556487

The Direct Synthesis of trialkoxysilane is carried out by conducting the Direct Synthesis reaction of silicon and alcohol, optionally in solvent, in the presence of a catalytically effective amount of Direct Synthesis catalyst and an effective catalyst-promoting amount of Direct Synthesis catalyst promoter, said promoter being an organic or inorganic compound possessing at least one phosphorus-oxygen bond.

7700796, Apr 20, 2010

Apr 16, 2003

10/413754

Kenrick M. Lewis - Rego Park NY, US
Chi-Lin O'Young - Poughkeepsie NY, US

Momentive Performance Materials Inc. - Albany NY

C01G 3/05

556110, 556111, 423493, 977773, 977810

A method of making nanosized copper (I) compounds, in particular, copper (I) halides, pseudohalides, and cyanocuprate complexes, in reverse micelles or microemulsions is disclosed herein. The method of the invention comprises (a) dissolving a copper (II) compound in the polar phase of a first reverse micelle or microemulsion, (b) dissolving a copper (II) to copper (I) reducing agent or a pseudohalide salt in the polar phase of a second sample of the same reverse micelle or microemulsion, (c) mixing the two reverse micelle/microemulsions samples to form nanometer sized copper (I) compounds and (d) recovering said nanometer sized copper (I) compounds. The present invention is also directed to the resultant nanosized copper (I) compounds, such as copper (I) chloride, copper (I) cyanide, and potassium cyanocuprate complexes having an average particle size of about 0. 1 to 600 nanometers.