Karl A Sieradzki

20050251245, Nov 10, 2005

May 5, 2004

10/840200

Karl Sieradzki - Scottsdale AZ, US
Jack Lundeen - , US

A61F002/06

623001390

A method and apparatus according to various aspects of the present invention comprises a system having multiple pores. In one embodiment, the system comprises a medical device for insertion into an organism, comprising a main structure and a porous portion on the main structure.

20090132023, May 21, 2009

Aug 20, 2008

12/195349

Karl Sieradzki - Scottsdale AZ, US
Jack Lundeen - Scottsdale AZ, US

A61F 2/06

623 115, 623 144, 623 146, 623 139, 623 142

A method and apparatus according to various aspects of the present invention comprises a system having multiple pores. In one embodiment, the system comprises a medical device for insertion into an organism, comprising a main structure and a porous portion on the main structure.

49770381, Dec 11, 1990

Apr 14, 1989

7/338260

Karl Sieradzki - Baltimore MD
Roger C. Newman - Alderley Edge, Cheshire, SK9 7HN, GB2

B32B 518
C25F 314

428610

Micro- and nano-porous metal structures including an alloy of one or more noble metals and substantially uniform and interconnected porosity in pore sizes ranging from three nanometers to 10 micrometers produced by a process including the following steps: mixing at least two metals having different electrochemical activity, according to predetermined proportions to form a multi-metallic alloy; contacting said alloy with an electrolyte; and applying an electrochemical potential to said electrolyte wherein said alloy acts as the anode until all or a portion of the more electrochemically active metal is dissolved from the alloy leaving porous metal.

20190378638, Dec 12, 2019

Apr 30, 2019

16/399924

- Scottsdale AZ, US
Karl SIERADZKI - Scottsdale AZ, US
Brandon DOWD - Cave Creek AZ, US
Rodolfo E. DIAZ - Phoenix AZ, US

H01F 1/147
H01F 41/26
C22C 19/03
C25D 3/12
B32B 15/08

Embodiments herein describe techniques for a magnetic conductive device including a substrate, an under layer above the substrate, and a magnetic conductive layer including NiFe alloy formed on the under layer. A method for forming a magnetic conductive device includes forming a support stack including an under layer above a substrate, cleaning the support stack, and performing electrodeposition on the under layer by placing the support stack into a plating bath to form NiFe alloy on the under layer. The NiFe alloy includes Ni in a range of about 74% to about 84%, and Fe in a range of about 26% to about 16%. Other embodiments may be described and/or claimed.