1
Michael N Kozicki, Maria Mitkova: Microelectronic programmable device and methods of forming and programming the same. Snell & Wilmer, One Arizona Center, November 14, 2002: US20020168820-A1 (23 worldwide citation)


A microelectronic programmable structure and methods of forming and programming the structure are disclosed. The programmable structure generally include an ion conductor and a plurality of electrodes. Electrical properties of the structure may be altered by applying a bias across the electrodes, an ...


2
Michael N Kozicki, William C West: Programmable sub-surface aggregating metallization structure and method of making same. Arizona Board Of Regents, Snell & Wilmer, One Arizona Center, December 19, 2002: US20020190350-A1 (16 worldwide citation)


A programmable sub-surface aggregating metallization structure (“PSAM”) includes an ion conductor, such as a chalcogenide-glass which includes metal ions and at least two electrodes disposed at opposing surfaces of the ion conductor. Preferably, the ion conductor includes a chalcogenide material wit ...


3
Michael N Kozicki: Programmable microelectronic devices and methods of forming and programming same. Snell & Wilmer, One Arizona Center, February 20, 2003: US20030035314-A1 (16 worldwide citation)


A microelectronic programmable structure and methods of forming and programming the structure are disclosed. The programmable structure generally include an ion conductor and a plurality of electrodes. Electrical properties of the structure may be altered by applying a bias across the electrodes, an ...


4
Michael N Kozicki: Microelectronic device, structure, and system, including a memory structure having a variable programmable property and method of forming the same. Snell & Wilmer, One Arizona Center, February 20, 2003: US20030035315-A1 (16 worldwide citation)


A microelectronic programmable structure suitable for storing information and a method of forming and programming the structure are disclosed. The programmable structure generally includes an ion conductor and a plurality of electrodes. Electrical properties of the structure may be altered by applyi ...


5
Michael N Kozicki: Programmable microelectronic device, structure, and system and method of forming the same. Snell & Wilmer, One Arizona Center, July 24, 2003: US20030137869-A1 (14 worldwide citation)


A microelectronic programmable structure suitable for storing information and a method of forming and programming the structure are disclosed. The programmable structure generally includes an ion conductor and a plurality of electrodes. Electrical properties of the structure may be altered by applyi ...


6
Michael N Kozicki: Programming circuit for a programmable microelectronic device, system including the circuit, and method of forming the same. Snell & Wilmer, One Arizona Center, August 21, 2003: US20030156447-A1 (13 worldwide citation)


A circuit for programming a microelectronic device is disclosed. The circuit is configured to provide a reversible bias across the microelectronic device to perform erase and write functions. One configuration of the programming circuit includes one or more inputs coupled to the programmable device ...


7
Michael N Kozicki: Programmable chip-to-substrate interconnect structure and device and method of forming same. Snell & Wilmer, One Arizona Center, June 12, 2003: US20030107105-A1 (13 worldwide citation)


A structure and system for forming an electrical interconnection between a microelectronic device and a substrate and a method of forming the interconnection are disclosed. The interconnection includes a first electrode formed on the microelectronic device, a second electrode formed on the substrate ...


8
Michael N Kozicki: Microelectronic photonic structure and device and method of forming the same. Snell & Wilmer, One Arizona Center, March 13, 2003: US20030048519-A1 (12 worldwide citation)


A microelectronic photonic structure and a device and a system including the structure are disclosed. The photonic structure includes an ion conductor and a plurality of electrodes. Optical properties of the structure are altered by applying energy across the electrodes.


9
Michael N Kozicki, Maria Mitkova: Microelectronic programmable device and methods of forming and programming the same. Snell & Wilmer, One Arizona Center, November 13, 2003: US20030209728-A1 (8 worldwide citation)


A microelectronic programmable structure and methods of forming and programming the structure are disclosed. The programmable structure generally include an ion conductor and a plurality of electrodes. Electrical properties of the structure may be altered by applying a bias across the electrodes, an ...


10
Michael N Kozicki: Tunable cantilever apparatus and method for making same. Snell & Wilmer, One Arizona Center, November 13, 2003: US20030210564-A1 (7 worldwide citation)


Mass distribution within programmable surface control devices is controlled by the presence or absence of an electrodeposition of metal and/or metal ions from a solid solution upon application of a suitable electric field. One such programmable surface control device includes a tunable cantilever as ...



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