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Giuseppe Farruggia

from Rochester, NY
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Related to:
Nicole L Farruggia, 39Greta L Farruggia, 68Joseph M Farruggia, 64Linda M Farruggia, 65Julie A Bastian, 46
Connected to:
Brian J Farruggio, 42Carmen P Farruggia, 71Charles Farruggio, 35Christopher J Farruggio, 41Gero A Farruggio, 63Jeremy J Farruggia, 46Joseph A Farruggio, 71Philip J Farruggio, 81Ann M Farrugia, 53Connie B Farrugia, 82

Giuseppe Farruggia Phones & Addresses

  • Rochester, NY

Resumes

Resumes

Giuseppe Farruggia Photo 1

Software Qa Test Engineer

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Location:
3 Ravinia Dr, Dunwoody, GA 30346
Industry:
Research
Work:
Xerox
Software Qa Test Engineer
Eastman Kodak Jul 1, 1990 - Mar 2015
Senior Device Technician, Kodak Research Labs
Eastman Kodak Oct 1981 - Jul 1990
Quality Assurance Lead Tester, Optical Media Development
Education:
Rochester Institute of Technology 1982 - 1986
Skills:
It Hardware and Software Support
Hardware and Software Troubleshooting
Pc Upgrades and Installations
Computer Networking
Tcp/Ip
Design of Experiments
Thin Films
Materials Science
Characterization
Inkjet
Research
Continuous Inkjet Printing Device Characterization and Testing
Sputtering
Physical Vapor Deposition
Chemical Vapor Deposition
Sensors
Continuous Inkjet Drop Formation Characterizaton
Vacuum Systems
Languages
R&D
Nanotechnology
Manufacturing
Product Development
Functional Printing
Research and Development
Interests:
Children
Economic Empowerment
Civil Rights and Social Action
Education
Environment
Science and Technology
Animal Welfare
Languages:
Italian
Giuseppe Farruggia Photo 2

Giuseppe Farruggia

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Giuseppe Farruggia Photo 3

Giuseppe Farruggia

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Publications

Us Patents

Erasable Phase Change Optical Recording Elements

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US Patent:
6365256, Apr 2, 2002
Filed:
Feb 29, 2000
Appl. No.:
09/515147
Inventors:
Yuan-Sheng Tyan - Webster NY
Bruno Primerano - Walworth NY
Giuseppe Farruggia - Webster NY
Fridrich Vazan - Pittsford NY
Thomas R. Cushman - Fairport NY
Donald R. Preuss - Rochester NY
Assignee:
Eastman Kodak Company - Rochester NY
International Classification:
B32B 302
US Classification:
428 641, 428 645, 428 646, 43027013
Abstract:
A rewriteable phase-change optical recording element includes a substrate; and a recording layer over the substrate having at least two sub-layers of different chemical compositions, the compositions and thickness of the sub-layers being selected so that when subject to laser light during a writing process the compositions mixed together to form a high reflectivity mixed crystalline region without using any prior initialization or mixing processes.

Phase-Change Recording Element For Write Once Applications

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US Patent:
6497988, Dec 24, 2002
Filed:
Feb 22, 2001
Appl. No.:
09/791322
Inventors:
Yuan-Sheng Tyan - Webster NY
Thomas R. Cushman - Fairport NY
Giuseppe Farruggia - Webster NY
George R. Olin - Webster NY
Bruno Primerano - Walworth NY
Fridrich Vazan - Pittsford NY
James A. Barnard - Scottsville NY
Assignee:
Eastman Kodak Company - Rochester NY
International Classification:
G11B 70045
US Classification:
43027013, 430945, 428 644, 428 645, 428 646
Abstract:
A WORM optical recording element includes a substrate; an amorphous phase-change recording layer disposed over the substrate; a dielectric layer disposed adjacent to the amorphous phase-change layer; a reflector layer disposed adjacent to the dielectric layer; and wherein the material and the thickness of the layers are selected such that recording can be performed on the optical recording element by using a focused laser beam to form crystalline marks in the phase-change layer using laser pulses with less than 40 nS in duration, the reflectivity of the amorphous phase as measured by a collimated beam is higher than 28% and the contrast of the read-back signal is higher than 0. 6, and the second and subsequent writing over previous recording results in at least a 50% increase in read out jitter.

Phase-Change Recording Element For Write Once Applications

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US Patent:
6544617, Apr 8, 2003
Filed:
Aug 9, 2001
Appl. No.:
09/925751
Inventors:
Yuan-Sheng Tyan - Webster NY
Thomas R. Cushman - Rochester NY
Giuseppe Farruggia - Webster NY
George R. Olin - Webster NY
Bruno Primerano - Walworth NY
Fridrich Vazan - Pittsford NY
Assignee:
Eastman Kodak Company - Rochester NY
International Classification:
B32B 302
US Classification:
428 641, 428 644, 43027013
Abstract:
A WORM optical recording element comprising a substrate and a phase-change recording layer wherein the phase-change recording layer has a composition expressed by Sb In Sn Zn Si O S wherein a 0, b 0, c 0, d 0, e 0, f 0, h 0, and a+b+c+d+e+f+h=100.

Phase-Change Recording Element For Write Once Applications

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US Patent:
6605330, Aug 12, 2003
Filed:
Nov 13, 2001
Appl. No.:
10/010784
Inventors:
Yuan-Sheng Tyan - Webster NY
Thomas R. Cushman - Rochester NY
Giuseppe Farruggia - Webster NY
George R. Olin - Webster NY
Bruno Primerano - Walworth NY
Fridrich Vazan - Pittsford NY
Assignee:
Eastman Kodak Company - Rochester NY
International Classification:
B32B 302
US Classification:
428 641, 428 644, 428 645, 43027013
Abstract:
A WORM optical recording element comprising a substrate and a phase-change recording layer wherein the phase-change recording layer has a composition expressed by Sb X Sn Zn Si O S wherein X is an element selected from In, Ge, Al, Zn, Mn, Cd, Ga, Ti, Si, Te, Nb, Fe, Co, W, Mo, S, Ni, O, Se, Tl, As, P, Au, Pd, Pt, Hf,or V and a 0, b 0, c 0, d 0, e 0, f 0, h 0, and a +b+c+d+e+f+h=100.

Method For Transferring Of Organic Material From A Donor To Form A Layer In An Oled Device

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US Patent:
6688365, Feb 10, 2004
Filed:
Dec 19, 2001
Appl. No.:
10/025362
Inventors:
Yuan-Sheng Tyan - Webster NY
Giuseppe Farruggia - Webster NY
Fridrich Vazan - Pittsford NY
Thomas R. Cushman - Rochester NY
Assignee:
Eastman Kodak Company - Rochester NY
International Classification:
B44C 116
US Classification:
156540, 156230, 1563796, 156381, 156382, 156580, 118 50, 118 501, 427457, 427510, 427148, 438 22, 430200, 347217
Abstract:
A method for transferring organic material from a flexible donor element onto a substrate to form a layer of organic material in making one or more OLED devices, includes providing the flexible donor element and the substrate in a spaced relationship within a chamber under atmospheric pressure defined by a transfer station so that the flexible donor element partitions the chamber into first and second cavities; varying the pressure differential between the first and second cavities to cause the flexible donor element to move into a contact relationship with the substrate; providing a transparent window which defines the top surface of the second cavity; and providing radiation energy through the transparent window onto the flexible donor element in contact with the substrate to cause the flexible donor element to absorb heat and transfer organic material onto the substrate.

Tuned Microcavity Color Oled Display

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US Patent:
6861800, Mar 1, 2005
Filed:
Feb 18, 2003
Appl. No.:
10/368513
Inventors:
Yuan-Sheng Tyan - Webster NY, US
Giuseppe Farruggia - Webster NY, US
Joel D. Shore - Rochester NY, US
Assignee:
Eastman Kodak Company - Rochester NY
International Classification:
H01J001/62
US Classification:
313506, 313505, 313504, 313113
Abstract:
A color organic light-emitting display device having an array of pixels divided into at least two different color pixel sets each color pixel set emitting a different predetermined color light over a common substrate, wherein each pixel in the array includes a metallic bottom-electrode layer disposed over the substrate and a metallic electrode layer spaced from the metallic bottom-electrode layer; wherein the material for reflective metallic electrode layer includes Ag, Au, Al, or alloys thereof, the material for the semitransparent metallic electrode layer includes Ag, Au, or alloys thereof; and wherein the thickness of the semitransparent metallic electrode layer, the combined thickness of the organic layers and the transparent conductive phase-layer, and the placement of the light-emitting layer are selected so that each pixel in the display forms a tuned microcavity OLED device having an emission output efficiency above that of a comparable OLED device without the microcavity.

Stabilized Oled Device

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US Patent:
6905788, Jun 14, 2005
Filed:
Sep 12, 2003
Appl. No.:
10/661121
Inventors:
Yuan-Sheng Tyan - Webster NY, US
Tukaram K. Hatwar - Penfield NY, US
Joel D. Shore - Rochester NY, US
Giuseppe Farruggia - Webster NY, US
Assignee:
Eastman Kodak Company - Rochester NY
International Classification:
H05B033/14
US Classification:
428690, 428917, 313504, 313506, 313112, 313113, 257 98
Abstract:
A stabilized OLED device for emitting light of a specific color includes a metallic anode and a metallic cathode spaced from the metallic anode. The device also includes a light-emitting layer including a host and a dopant, the dopant selected to produce light having a spectrum including light of the specific color, and a stabilizer provided in one of the device layers which improves the useful lifetime of the OLED device, wherein the stabilizer has an emission spectrum different from that of the light-emitting layer. One of the electrode layers is semitransparent and the other one is substantially opaque and reflective such that the stabilized OLED device forms a microcavity that emits a narrow band light with the specific color.

Microcavity Oled Device

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US Patent:
6917159, Jul 12, 2005
Filed:
Aug 14, 2003
Appl. No.:
10/640907
Inventors:
Yuan-Sheng Tyan - Webster NY, US
Giuseppe Farruggia - Webster NY, US
Joel D. Shore - Rochester NY, US
Joseph C. Deaton - Rochester NY, US
Steven A. Van Slyke - Pittsford NY, US
Assignee:
Eastman Kodak Company - Rochester NY
International Classification:
H01J001/62
US Classification:
313506, 313503, 313504
Abstract:
A microcavity OLED device including a substrate; a metallic bottom-electrode layer disposed over the substrate; a metallic top-electrode layer spaced from the metallic bottom-electrode layer; and an organic EL medium structure having a defined thickness, and including a light-emitting layer comprising a host material and at least one dopant disposed between the top-electrode layer and the bottom-electrode layer; wherein one of the metallic electrode layers is light transmissive and the other one is essentially opaque and reflective; wherein the material for reflective metallic electrode layer includes Ag, Au, Al, or alloys thereof, and the material for the light transmissive metallic electrode layer includes Ag, Au, or alloys thereof. The at least one dopant is selected to generate one of red, green, or blue light in the light-emitting layer. The defined thickness of the EL medium structure is selected so that the microcavity OLED device is tuned for emission of one of red, green, or blue light through the light transmissive electrode layer.
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Giuseppe Farruggia from Rochester, NY Get Report