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Jin Mei He, 44197 E 5Th St, Deer Park, NY 11729

Known as:
Jin M He Jin Hui He Jin H He Jin H Huihe Jin Mei
Related to:
Chuan Gong He 40

Jin He Phones & Addresses

Deer Park, NY   

14120 Booth Memorial Ave, Flushing, NY 11355    917-4286660   

Bronx, NY   

Southaven, MS   

Queens, NY   

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Mentions for Jin Mei He

Jin He resumes & CV records

Resumes

Jin He Photo 38

Jin He

Jin He Photo 39

Jin Ronglinda He

Jin He Photo 40

Jin He

Skills:
Microsoft Word
Jin He Photo 41

Jin He

Jin He Photo 42

Jin He

Jin He Photo 43

Jin He

Location:
United States
Jin He Photo 44

Jin He

Location:
United States
Jin He Photo 45

Independent Painter

Location:
Greater New York City Area
Industry:
Arts and Crafts
Education:
Pace University 2010 - 2014
BS, Economics, Mathematics
Skills:
Mountain Rescue, Business Economics, Entrepreneurial Management, Microsoft Office, Painting, CAD Home Design, Dreamweaver Web Design
Interests:
Architecture, Construction, Architectural Design, Economics, Mathematics, Ballistics
Honor & Awards:
Pace University Trustee Recognition Award 2010-Present Pace University Dean's List Second Honor Award Spring 2011
Languages:
English
Mandarin
Cantonese
Japanese

Publications & IP owners

Us Patents

Nanopore And Carbon Nanotube Based Dna Sequencer

US Patent:
2011016, Jul 14, 2011
Filed:
Mar 18, 2009
Appl. No.:
12/920817
Inventors:
Colin Nuckolls - New York NY, US
Jinyao Tang - New York NY, US
Stuart Lindsay - Phoenix AZ, US
Jin He - Scottsdale AZ, US
Peiming Zhang - Gilbert AZ, US
Kevin Reinhart - Scottsdale AZ, US
International Classification:
G01N 27/00
B32B 37/24
C23F 1/00
B82Y 99/00
US Classification:
204600, 156242, 216 41, 977742
Abstract:
The present invention provides a device for analyzing the composition of a heteropolymer comprising a carbon nanotube through which the heteropolymer is driven by electrophoresis. The carbon nanotube also serves as one electrode in a reading circuit. One end of the carbon nanotube is held in close proximity to a second electrode, and each end of the carbon nanotube is functionalized with flexibly-tethered chemical-recognition moieties, such that one will bind one site on the emerging polymer, and the second will bind another site in close proximity, generating an electrical signal between the two electrodes when the circuit is completed by the process of chemical recognition.

Possible Relatives

Da G He  Diana He  Dong He  Elizabeth He  Eva He  Fan He  Fang He  Jin P Joseph  Jin H Jung  Jin S Kang 

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