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Hiep Ly

from Middletown, DE
Age ~55
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Also known as:
Heip Ly, Ly Hiep, Ly Heip
Phone and address:
627 Corbit Dr, Middletown, DE 19709
(302) 449-2087
Related to:
Justin Ly, 22Tu N Phan, 84Kirsten M Ly, 52Christopher Merritt, 83John W LundayKirsten Mly, 52Kirsten E Merritt, 52Jennifer L Kaye, 64Anh T Phan, 69Kathy Phan, 42Jason L Lunday, 60
Connected to:
Ashley P Ly, 46Chhorvy Ly, 38Chong Ly, 46Do Ly, 41Eiv Ly, 69Hua Ly, 59Huang T LyIvy H Ly, 55Jamie M Ly, 43Maurice T Ly, 61

Hiep Ly Phones & Addresses

  • 627 Corbit Dr, Middletown, DE 19709 (302) 449-2087
  • 5 Ball Farm Way, Wilmington, DE 19808 (302) 892-2744
  • 630 Yardley Ct, Webster, NY 14580 (585) 216-2167
  • 2353 Mission Rd, Tallahassee, FL 32304 (850) 576-6297
  • Gainesville, FL

Resumes

Resumes

Hiep Ly Photo 1

Product Manager

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Location:
Wilmington, DE
Industry:
Chemicals
Work:
Nichino America, Inc.
Product Manager
Fmc Corporation
Insect Control Product Manager; Global Portfolio Strategy Pmp at Fmc Agricultural Solutions
Fmc Corporation
Global Portfolio Strategy Pmp
Dupont
Global Marketing Senior Consultant - Pmp
Dupont Jul 2009 - Jun 2013
Global Product Mgr; and Global Demand Manager
Education:
Florida State University Jan 1, 1992 - 1997
Doctorates, Doctor of Philosophy, Philosophy, Chemistry Spring Hill College Jan 1, 1987 - Dec 31, 1991
Bachelors, Bachelor of Science, Chemistry
Skills:
Project Management
Cross Functional Team Leadership
Six Sigma
Continuous Improvement
Marketing
R&D
Chemistry
Process Improvement
Coatings
Polymers
Supply Chain
Product Management
Materials Science
Demand Management
Ink
Additives
Adhesives
Ink Formulation
Conducting Polymers
Business Process Improvement
Research and Development
Flexography
Process Engineering
Languages:
English
Vietnamese
Certifications:
License #1953378
Hiep Ly Photo 2

Global Demand Manager

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Location:
Wilmington, DE
Work:
Dupont
Global Demand Manager
Hiep Ly Photo 3

Hiep Ly

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Publications

Us Patents

Ink Compositions Containing Sodium Tetraphenylboride

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US Patent:
6777462, Aug 17, 2004
Filed:
Nov 23, 2001
Appl. No.:
09/990375
Inventors:
Thomas W. Smith - Penfield NY
Richard L. Colt - Rochester NY
Kathleen M. McGrane - Webster NY
Hiep Ly - Webster NY
Assignee:
Xerox Corporation - Stamford CT
International Classification:
C09D 1110
US Classification:
523160, 524404, 524548, 524555, 524567
Abstract:
Disclosed is an ink composition comprising water, a colorant, and sodium tetraphenylboride. Another embodiment of the present invention is directed to a set of inks for printing multicolor images in an ink jet printer, the ink set comprising (1) a first ink having a first color and comprising water, a first colorant, and at least one of (a) a cationic polymer, (b) a cationic surfactant, or (c) an inorganic salt the cation of which has a tetraphenylboride salt that is substantially insoluble in water, and (2) a second ink having a second color different from the first color and comprising water, a second colorant, and sodium tetraphenylboride, wherein intercolor bleed between the first ink and the second ink is reduced when the second ink is printed adjacent to, on top of, or underneath the first ink on a print substrate.

Ink Jet Set For Reducing Intercolor Bleed

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US Patent:
7169218, Jan 30, 2007
Filed:
Nov 23, 2004
Appl. No.:
10/995838
Inventors:
Eric Pallen - Rochester NY, US
Lisa A. Delouise - Rochester NY, US
Michael Keymel - Rochester NY, US
Garret Lau - Fairport NY, US
Pinyen Lin - Rochester NY, US
Hiep Ly - Middletown DE, US
David M. Skinner - Rochester NY, US
Erin M. Reinhardt - Webster NY, US
Assignee:
Xerox Corporation - Stamford CT
International Classification:
C09D 11/02
US Classification:
106 3127, 106 316, 106 3158, 106 3186
Abstract:
An ink set for reducing intercolor bleed and a multi-colored ink jet printing process utilizing the same is provided. The ink set comprises a black ink composition and a plurality of color ink jet ink compositions comprising a colorant and an ink vehicle. The ink vehicle of at least one of the color inks matches the ink vehicle of the black ink. An ink set may also be a hybrid ink set comprising a black/color ink subset that includes a black ink composition and at least one color ink composition, and a color/color ink subset that includes a plurality of color ink compositions, wherein the ink vehicle of the color ink composition(s) in the black/color ink subset matches the ink vehicle of the black ink composition and the ink vehicles of at least one of the color inks in the color/color subsets match the ink vehicle of another color ink in the color/color ink subset.

Bilayer Electrodes

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US Patent:
20020022795, Feb 21, 2002
Filed:
Aug 14, 2001
Appl. No.:
09/929584
Inventors:
John Reynolds - Gainesville FL, US
Hiep Ly - Webster NY, US
Patrick Kinlen - Fenton MO, US
Vinod Menon - Woodbury MN, US
International Classification:
A61L002/00
B05D003/00
A61N001/30
US Classification:
604/020000, 427/002100, 424/400000
Abstract:
The invention herein comprises a polymer bilayer which eliminates the spontaneous release of an active molecule by ion exchange. The spontaneous release is slowed by the application of a second polymer layer to the top of the electroactive polymer. The electroactive bilayer is preferably polypyrrole. The second polymer layer is preferably poly(vinyl butyral), poly(vinyl acetate) or nafion. This second layer stops the spontaneous release of the active molecule. The active molecule will usually be a pharmaceutical agent or drug. This bilayer allows a more effective controlled drug delivery system wherein the quantities and timing of the drugs can be given to the human being/animal patient with a high degree of certainty and predictability.

Burst Electrode

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US Patent:
20020022826, Feb 21, 2002
Filed:
Aug 14, 2001
Appl. No.:
09/929197
Inventors:
John Reynolds - Gainsville FL, US
Hiep Ly - Webster NY, US
Patrick Kinlen - Fenton MO, US
International Classification:
A61K009/22
US Classification:
604/890100
Abstract:
A burst electrode system is provided that comprises an electroactive polymer having thereon either a polyanionic or polycationic dopant, and a biologically active ingredient that is releasable from said electroactive polymer, whereby said burst electrode system exhibits a release profile greater in quantity and faster than a standard Faradaic profile. The biologically active ingredient preferably is a drug. The electroactive polymer preferably is a polypyrrole or a polypyrrole polyelectrolyte complex such as polypyrrole poly(styrene sulfonate), heparin or polyacrylic acid.

Drug Release (Delivery System)

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US Patent:
20020035346, Mar 21, 2002
Filed:
Aug 14, 2001
Appl. No.:
09/929590
Inventors:
John Reynolds - Gainesville FL, US
Hiep Ly - Webster NY, US
Patrick Kinlen - Fenton MO, US
Vinod Menon - Woodbury MN, US
International Classification:
A61N001/30
A61L015/16
US Classification:
604/020000, 424/447000
Abstract:
An electrically addressable release pad for use in a burst electrode drug release (delivery) system. The pad useable in this system comprises a polymer, preferably polypyrrole, which surrounds medicine. Once a section of the polymer receives an electrochemical potential sent from an electrode contained within the pad, a defined dose of medicine contained therein is released. The pad is designed to be worn by a patient, so that when the medication is released, its administered to the patient, without the patient having to do anything. The electrode typically can be a burst electrode, one with a unique electrical signature. The electrode can be triggered from a remote source.

Corrision Resistant Hydrophobic Liquid Level Control Plate For Printhead Of Ink Jet Printer And Process

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US Patent:
20020097297, Jul 25, 2002
Filed:
Dec 5, 2000
Appl. No.:
09/730291
Inventors:
David Skinner - Rochester NY, US
Hiep Ly - Webster NY, US
Daniel Foucher - Rochester NY, US
Ming-Hong Fu - Webster NY, US
International Classification:
B41J002/135
US Classification:
347/046000
Abstract:
Process for producing a corrosion-resistant liquid level control plate for the printhead of an aqueous ink jet printing machine. A corrosion-resistant metal alloy base is used, having an undersurface and an upper surface and having closely-spaced ink jet nozzles therethrough. Each of the nozzles has a micro-orifice at the undersurface surrounded by a lip area at the bottom of upwardly and outwardly tapered walls opening at the upper surface. The present process comprises forming the lip areas of metallic gold, encapsulating the upper surface of the metal alloy base including the gold lip areas and the tapered walls with metallic gold to form a corrosion-resistant, hydrophobic surface layer thereover. Thereafter the undersurface is coated with metallic chromium to render it hydrophilic. The gold coating preferably is reacted with a self assembled monolayer (SAM) of an organic sulfur compound such as hexadecylthiol or, more preferably, a cross-linkable SAM which is then cross-linked in situ to form a rub-resistant layer having strong hydrophobic properties. The chrome coating on the undersurface may be coated with a hydrophilic silane to increase its hydrophilic properties.
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Hiep Ly from Middletown, DE, age ~55 Get Report