BackgroundCheck.run
Search For

Feng Binlin X Gao DeceasedLewis Center, OH

Known as:
Feng Binlin Gao Feng Ggao Feng Gau Gao Feng Samuel Kadish
Related to:
Shuen Wong 51 Ying X Gao Daniel Gao Biying Huang 52 Yingyu X Gao 34 Biying Huang 60 Bonnie C Xu 43 Binlin Xu 64 Jenny L Xu 71 Carl K Xu 72 Binlin Xu Sarah Reynolds 38

Feng Gao Phones & Addresses

Lewis Center, OH   

48 Westwoods Blvd, Hockessin, DE 19707    302-2396902   

Henderson, NV   

2219 Prior Rd, Wilmington, DE 19809   

Cockeysville, MD   

Atlanta, GA   

Baltimore, MD   

Orlando, FL   

48 Westwoods Blvd, Hockessin, DE 19707    302-3838607   

Work

Position: Professional/Technical

Education

Degree: Graduate or professional degree

Emails

c***[email protected]
Get Report
Control this profile

Mentions for Feng Binlin X Gao

Feng Gao resumes & CV records

Resumes

Feng Gao Photo 43

Feng Gao

Location:
United States
Feng Gao Photo 44

Feng Gao

Location:
United States
Feng Gao Photo 45

Feng Gao

Location:
United States
Feng Gao Photo 46

Assistant Professor At University Of Illinois At Chicago

Location:
Chicago, Illinois
Industry:
Accounting
Feng Gao Photo 47

Software Architect At Ge Healthcare

Position:
Software Architect at GE Healthcare
Location:
Waukesha, Wisconsin
Industry:
Medical Devices
Work:
GE Healthcare since Jan 2005
Software Architect
Education:
Tsinghua University
Ph.D., Electrical, Electronics and Communications Engineering
Feng Gao Photo 48

Feng Gao

Location:
United States
Work:
SST 2000 - 2008
device
Feng Gao Photo 49

Feng Gao

Location:
United States
Feng Gao Photo 50

Feng Gao

Location:
United States

Publications & IP owners

Us Patents

Electrolytes Having Improved Stability Comprising An N,N-Dialkylamide Additive

US Patent:
6395431, May 28, 2002
Filed:
Oct 28, 1998
Appl. No.:
09/182392
Inventors:
Feng Gao - Henderson NV
Jeremy Barker - Henderson NV
Hang Shi - Henderson NV
Tracy Kelley - Henderson NV
Assignee:
Valence Technology, Inc. - Henderson NV
International Classification:
H01M 616
US Classification:
429326, 429339
Abstract:
The invention provides an electrochemical cell having an electrolyte which comprises a solute, a solvent, and an additive. The additive is a dialkylamide. The dialkylamide lessens the extent of decomposition of the solute, which is a lithium salt. The ionic species of the lithium salt are thereby preserved. The additive also prevents damage to active material by absorbing excess charge energy below the breakdown potential of the active material.

Electrolytes Having Improved Low Temperature Performance

US Patent:
6444370, Sep 3, 2002
Filed:
Nov 20, 1998
Appl. No.:
09/196882
Inventors:
Jeremy Barker - Redmond WA
Feng Gao - Henderson NV
Arnold Stux - Baltimore MD
Assignee:
Valence Technology, Inc. - Henderson NV
International Classification:
H01M 616
US Classification:
429332
Abstract:
The present invention provides a novel electrolyte solvent which is usable with a variety of carbonaceous and metal oxide electrode active materials, providing improved performance over a broad temperature range, and which is stabilized to maintain cell capacity over a number of cycles.

Method Of Preparing Electrochemical Cells

US Patent:
6503284, Jan 7, 2003
Filed:
May 26, 2000
Appl. No.:
09/579724
Inventors:
Peikang Liu - Henderson NV, 89014
Porter Mitchell - Las Vegas NV, 89128
Feng Gao - Henderson NV, 89014
International Classification:
H01M 462
US Classification:
296231, 429217, 429309, 429314, 429317
Abstract:
Anodes, cathodes, and/or solid electrolytes (or separator layers) of an electrochemical cell can be fabricated from aqueous compositions containing monomers and/or polymers. In one formulation, the aqueous composition contains binding materials that are polymerized and crosslinked. In a second formulation, the composition is a latex having as aqueous phase and a solid polymer phase. Upon removal of water, the compositions provide a polymeric structure suitable for use as an electrode or solid electrolyte.

Printing Of Organic Conductive Polymers Containing Additives

US Patent:
7351357, Apr 1, 2008
Filed:
Feb 26, 2003
Appl. No.:
10/374875
Inventors:
Feng Gao - Wilmington DE, US
Assignee:
E.I. du Pont de Nemours and Company - Wilmington DE
International Classification:
H01B 1/04
H01B 1/12
B05D 5/12
US Classification:
252500, 252510, 427 961, 427122
Abstract:
Additives to organic conducting polymers are described which enhance adhesion and resolution of printed films while retaining adequate electrical conductivity. The conductive polymer films are useful in printing conductive portions of thin film transistors such as sources and drains. Additives include surfactants, second macromolecules, plasticizers, and excess sulfonic acids.

Thin Film Transistor Comprising Novel Conductor And Dielectric Compositions

US Patent:
7528448, May 5, 2009
Filed:
Jul 17, 2006
Appl. No.:
11/488200
Inventors:
Richard Kevin Bailey - Newark DE, US
Graciela Beatriz Blanchet - Wilmington DE, US
Reid John Chesterfield - Santa Barbara CA, US
Howard David Glicksman - Durham NC, US
Marc B. Goldfinger - West Chester PA, US
Gary Delmar Jaycox - West Chester PA, US
Lynda Kaye Johnson - Wilmington DE, US
Roupen Leon Keusseyan - Raleigh NC, US
Irina Malajovich - Swarthmore PA, US
Hong Meng - Wilmington DE, US
Jeffrey Scott Meth - Landenberg PA, US
Geoffrey Nunes - Swarthmore PA, US
Gerard O'Neil - Newark DE, US
Kenneth George Sharp - Landenberg PA, US
Feng Gao - Hockessin DE, US
Assignee:
E.I. du Pont de Nemours and Company - Wilmington DE
International Classification:
H01L 27/01
H01L 27/12
H01L 31/0392
US Classification:
257352, 257347, 257E29151
Abstract:
The invention relates to thin film transistors comprising novel dielectric layers and novel electrodes comprising metal compositions that can be provided by a dry thermal transfer process.

Metal Compositions, Thermal Imaging Donors And Patterned Multilayer Compositions Derived Therefrom

US Patent:
7582403, Sep 1, 2009
Filed:
Jul 17, 2006
Appl. No.:
11/488247
Inventors:
Richard Kevin Bailey - Newark DE, US
Graciela Beatriz Blanchet - Greenville DE, US
Jonathan V. Caspar - Wilmington DE, US
John W. Catron - Smyrna DE, US
Reid John Chesterfield - Wilmington DE, US
Thomas C. Felder - Kennett Square PA, US
Feng Gao - Hockessin DE, US
Lynda Kaye Johnson - Wilmington DE, US
Roupen Leon Keusseyan - Raleigh NC, US
Dalen E. Keys - Landenberg PA, US
Irina Malajovich - Swarthmore PA, US
Jeffrey Scott Meth - Landenberg PA, US
Geoffrey Nunes - Swarthmore PA, US
Gerard O'Neil - Newark DE, US
Rinaldo S. Schiffino - Wilmington DE, US
Nancy G. Tassi - Gibbstown NJ, US
Assignee:
E. I. du Pont de Nemours and Company - Wilmington DE
International Classification:
B41M 5/40
H01B 1/22
G03C 3/00
G03C 5/18
US Classification:
430200, 430 18, 252500
Abstract:
The invention provides metal compositions, including silver compositions, and thermal imaging donors prepared with the compositions. The donors are useful for thermal transfer patterning of a metal layers and optionally, a corresponding proximate portion of an additional transfer layer onto a thermal imaging receiver. The compositions are useful for dry fabrication of electronic devices. Also provided are patterned multilayer compositions comprising one or more base film(s), and one or more patterned metal layers, including EMI shields and touchpad sensors.

Negative Imaging Method For Providing A Patterned Metal Layer Having High Conductivity

US Patent:
7666567, Feb 23, 2010
Filed:
Oct 23, 2007
Appl. No.:
11/877633
Inventors:
Feng Gao - Hockessin DE, US
Lynda Kaye Johnson - Wilmington DE, US
Roupen Leon Keusseyan - Raleigh NC, US
Irina Malajovich - Swarthmore PA, US
Jeffrey Scott Meth - Landenberg PA, US
Kenneth George Sharp - Landenberg PA, US
Seema Agrawal - Newark DE, US
Assignee:
E. I. du Pont de Nemours and Company - Wilmington DE
International Classification:
G03C 8/00
US Classification:
430200, 430201
Abstract:
Disclosed is a method negative imaging method for making a metal pattern with high conductivity comprising providing a patterned substrate comprising a patterned catalyst layer on a base substrate by a thermal imaging method followed by plating to provide the metal pattern. The metal patterns provided are suitable for electrical devices including electromagnetic interference shielding devices and touchpad sensors.

Composition And Method For Providing A Patterned Metal Layer Having High Conductivity

US Patent:
7666568, Feb 23, 2010
Filed:
Oct 23, 2007
Appl. No.:
11/877637
Inventors:
Feng Gao - Hockessin DE, US
Lynda Kaye Johnson - Wilmington DE, US
Roupen Leon Keusseyan - Raleigh NC, US
Dalen E. Keys - Landenberg PA, US
Irina Malajovich - Swarthmore PA, US
Rinaldo S. Schiffino - Wilmington DE, US
Assignee:
E. I. du Pont de Nemours and Company - Wilmington DE
International Classification:
G03C 8/00
US Classification:
430200, 430201
Abstract:
Disclosed is a method for making a metal pattern with high conductivity comprising providing a patterned substrate comprising a patterned catalyst layer on a base substrate by a thermal imaging method followed by plating to provide the metal pattern. The metal patterns provided are suitable for electrical devices including electromagnetic interference shielding devices and touchpad sensors.

Isbn (Books And Publications)

Tshan Rtsal Gsar Pai Yul Khams Grim Pa

Author:
Feng Gao
ISBN #:
7105037407

Zhen Shi De Mao Zedong: Mao Zedong Shen Bian Gong Zuo Ren Yuan De Hui Yi

Author:
Feng Gao
ISBN #:
7507315479

Possible Relatives

David Z Gao  Da Gao  Dan Gao  Deng Z Gao  Diping Gao  Fei F Gao  Fucheng C Gao  Feng W Meng  Feng L Li  Feng Lin 

NOTICE: You may not use BackgroundCheck or the information it provides to make decisions about employment, credit, housing or any other purpose that would require Fair Credit Reporting Act (FCRA) compliance. BackgroundCheck is not a Consumer Reporting Agency (CRA) as defined by the FCRA and does not provide consumer reports.