Mordechay H Schlesinger

6547944, Apr 15, 2003

Dec 8, 2000

09/733735

Chris M. Schreiber - Lake Elsinore CA
Mordechay Schlesinger - Pittsburgh PA
Robert Martinez - Rancho Cucamonga CA
Haim Feigenbaum - Irvine CA
William Robert Crumly - Anaheim CA

Delphi Technologies, Inc. - Troy MI

C25D 500

205 96, 205102, 205103, 205104, 205 67

A method for forming a nanolaminate structure is provided which comprises plating a substrate with layers of substantially a first metal and substantially a second metal using an electrolytic plating process and controlling the plating current to obtain a desired current density at the cathode, which is maintained within a predefined range.

20020071962, Jun 13, 2002

Dec 8, 2000

09/733463

Chris Schreiber - Lake Elsinore CA, US
Mordechay Schlesinger - Pittsburgh PA, US
Eric Jensen - Irvine CA, US
Haim Feigenbaum - Irvine CA, US
William Crumly - Anaheim CA, US

B32B015/20

428/635000, 428/675000

A nanolaminate structure comprises a plurality of adjacent metal layers with each layer having a thickness of less than about 1000 nanometers. The composition of the adjacent metal layers alternates between a first metal and a second metal, where at least one mechanical property of the nanolaminate is improved over the same mechanical property of the first and second metal.

20030060873, Mar 27, 2003

Jul 15, 2002

10/196296

Michael Gertner - San Francisco CA, US
Mordechay Schlesinger - Pittsburgh PA, US

Nanomedical Technologies, Inc. - San Francisco CA

A61L002/00
B05D003/00
B05D001/18
A61F002/06

623/001150, 427/443100, 427/002240, 424/426000, 623/001420

One embodiment of the invention is directed to a method comprising providing an electrochemical solution comprising metal ions and a bioactive material such as bioactive molecules, and then contacting the electrochemical solution and a substrate. A bioactive composite structure is formed on the substrate using an electrochemical process, where the bioactive composite structure includes a metal matrix and the bioactive material within the metal matrix.

20050186250, Aug 25, 2005

Mar 24, 2005

11/090998

Michael Gertner - San Francisco CA, US
Mordechay Schlesinger - Pittsburgh PA, US

Medlogics Device Corporation - Santa Rosa CA

C25D005/48
A61F002/00

424423000, 205220000

One embodiment of the invention is directed to a method comprising providing an electrochemical solution comprising metal ions and a bioactive material such as bioactive molecules, and then contacting the electrochemical solution and a substrate. A bioactive composite structure is formed on the substrate using an electrochemical process, where the bioactive composite structure includes a metal matrix and the bioactive material within the metal matrix.

20060121180, Jun 8, 2006

Jan 20, 2006

11/336047

Michael Gertner - Menlo Park CA, US
Mordechay Schlesinger - Pittsburgh PA, US

Medlogics Device Corporation - Santa Rosa CA

A61L 33/00
C25D 5/00

427002100, 205080000

One embodiment of the invention is directed to a method comprising providing an electrochemical solution comprising metal ions and a bioactive material such as bioactive molecules, and then contacting the electrochemical solution and a substrate. A bioactive composite structure is formed on the substrate using an electrochemical process, where the bioactive composite structure includes a metal matrix and the bioactive material within the metal matrix.

59678607, Oct 19, 1999

May 23, 1997

8/862767

Mark Ricketts - Windsor, CA
Dexter Dean Snyder - Birmingham MI
Robert F. Paluch - Allenton MI
Mordechay Schlesinger - Pittsburgh PA
Chi Hung Leung - Rochester Hills MI

General Motors Corporation - Detroit MI

H01R 1303
C22C 506

439886

Nesting electrical connectors comprising a substrate and a silver-nickel-carbon electrodeposit atop the substrate. The electrodeposit is at least about 0. 5 micrometers thick, and comprises about 10 to about 25 atomic percent nickel which is dispersed as a discontinuous phase throughout a continuous phase of the silver and has a Scherrer grain size less than about 5 nanometers. The carbon comprises about 5 to about 15 atomic percent of the deposit and has a non-crystalline graphite structure.