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Yu U Zhou, 54Brooklyn, NY

Yu Zhou Phones & Addresses

Brooklyn, NY   

Huntsville, AL   

New York, NY   

Mentions for Yu U Zhou

Career records & work history

Lawyers & Attorneys

Yu Zhou Photo 1

Yu Allen Zhou - Lawyer

Address:
Schneider Electric China Co. Ltd.
108-4346470 (Office)
Licenses:
New York - Currently registered 2002
Education:
Boston University School of Law
Yu Zhou Photo 2

Yu Zhou - Lawyer

ISLN:
924295322
Admitted:
2002

Medicine Doctors

Yu Zhou Photo 3

Dr. Yu Ye Zhou, Flushing NY - DDS (Doctor of Dental Surgery)

Specialties:
Dentistry
Age:
45
Address:
Essential Dental Empire
13681 Roosevelt Ave Suite 2, Flushing, NY 11354
718-3534777 (Phone)
Languages:
English
Cantonese
Chinese
Mandarin

Yu Zhou resumes & CV records

Resumes

Yu Zhou Photo 43

Yu Zhou

Work:
Jlem Usa Inc 2013 to 2000
Technician
Great Neck Food Corp 2012 to Jul 2012
Technician
Changchun Rongke Corp - Changchun, CN Jul 2007 to Jul 2012
Mechanical Design Engineer
Education:
Jilin Agricultural University 2003 to 2007
Bachelor's in Engineering
Teacher College 2000 to 2003
Vocational in Electrical Engineering

Publications & IP owners

Us Patents

Process For Synthesizing Metal Borohydrides

US Patent:
7429368, Sep 30, 2008
Filed:
Feb 8, 2001
Appl. No.:
09/778997
Inventors:
Yu Zhou - Kearny NJ, US
International Classification:
C01B 6/15
US Classification:
423286
Abstract:
A process for synthesizing metal borohydride especially sodium borohydride directly from borax by the use of proton H at room temperature and pressure. Said process comprising the steps of:Providing proton H by the use of metals or alloys that can form hydrides with hydrogen. In this case, the metals or alloys are the carriers of proton HProton H also can be provided from hydrogen gas by the use of catalysts located on the surface of carriers. Making the proton H enters the lattice of boron oxidesRemoving the oxygen from the lattice of boron oxides by the use of the carriers.

System For Transferring Metal To Electronic Energy

US Patent:
2004008, May 6, 2004
Filed:
Nov 1, 2002
Appl. No.:
10/286328
Inventors:
Yu Zhou - Kearny NJ, US
International Classification:
H01M008/06
H01M008/08
US Classification:
429/019000, 429/034000, 429/046000
Abstract:
A process and apparatus are disclosed for inexpensively, automatically, continuously and smartly transferring metal to electronic energy. Said process and apparatus comprise a removable cartridge and multilevel chambers. Said cartridge contains solid metals such as Al, Zn, Mg. etc that can react with water to produce hydrogen and materials such as Na, K, KOH or NaOH etc that can form acid or alkali solutions. Said process and apparatus have functions of automatically adjusting water level and pressure, stopping alkali or acid leaking to outside and real-time controlling yielding rate of hydrogen etc by only using weight, spring force and buoyant force. This system or apparatus is an inexpensive portable power plant that can replace traditional batteries, direct metal-air fuel cells, direct methanol fuel cells and hydrogen-consuming fuel cells that need accessory hydrogen storage system. This process and apparatus also can be used as portable hydrogen generator.

Process For Synthesizing Metal Borohydrides

US Patent:
2009002, Jan 29, 2009
Filed:
Jul 25, 2008
Appl. No.:
12/180452
Inventors:
Yu Zhou - Kearny NJ, US
International Classification:
C01B 6/15
C09K 3/00
US Classification:
25218232, 423286
Abstract:
A process for synthesizing metal borohydride especially sodium borohydride directly from borax by the use of proton H at room temperature and pressure. Said process comprising the steps of:

A Miniature Piezoelectric Air Pump To Generate Pulsation-Free Air Flow For Pipette Apparatus Proximity Sensing

US Patent:
2021011, Apr 22, 2021
Filed:
Jul 1, 2019
Appl. No.:
17/251767
Inventors:
- Tarrytown NY, US
Arnaud Besse-Bergier - Saint-Herblain, FR
Yu Zhou - Ridgewood NJ, US
Assignee:
Siemens Healthcare Diagnostics Inc. - Tarrytown NY
International Classification:
F04B 43/04
F04B 45/047
G01N 35/10
F04B 49/06
Abstract:
A sample probe system has a sample probe assembly, an air supply assembly, and a control system. The sample probe assembly has a transducer and a sample probe. The air supply assembly has a piezoelectric pump configured to supply an air flow to the sample probe assembly such that the air flow exits the sample probe. The control system determines a relative location of the sample probe based on pressure changes in the air flow detected by the transducer.

Method And System For Hydrophobic Coating Of Microfluidic Chips

US Patent:
2018012, May 10, 2018
Filed:
Sep 12, 2017
Appl. No.:
15/702452
Inventors:
- Stapeley, GB
Yu Zhou - Ridgewood NJ, US
Zheng Xia - DeForest WI, US
International Classification:
B01L 3/00
C09D 5/00
C09D 129/10
Abstract:
This disclosure concerns a method of providing a hydrophobic coating on a microfluidic chip that promotes the discrete flow of at least one liquid. It includes applying the hydrophobic coating onto an area of the microfluidic chip. The disclosure further includes a microfluidic chip that provides discrete flow of at least one liquid.

System And Method For Ct-Guided Needle Biopsy

US Patent:
2015007, Mar 12, 2015
Filed:
Jul 20, 2012
Appl. No.:
14/232979
Inventors:
Yu Zhou - White Plains NY, US
Kaarvannan Thiruvalluvan - Stony Brook NY, US
Lukasz Krzeminski - Brooklyn NY, US
William H. Moore - Setauket NY, US
Zhigang Xu - Lake Grove NY, US
Zhengrong Liang - Stony Brook NY, US
Assignee:
THE RESEARCH FOUNDATION FOR THE STATE UNIVERSITY OF NEW YORK - Albany NY
International Classification:
A61B 10/04
A61B 19/00
A61B 10/02
G01R 33/28
G01R 33/48
A61B 8/08
G06T 7/20
A61B 6/03
US Classification:
600411, 600407, 600429, 600417, 600427, 600424
Abstract:
An image-guided system and method for performing needle biopsy on a moving lung nodule of a body is provided. CT images of the lung nodule are obtained to generate a motion model, based on which an optimal needle advancing path is determined. The motion of the lung nodule and the motion of a fiducial marker attached to the body are correlated. The motion of the fiducial marker is tracked and monitored by a camera to determine a position of the lung nodule based on the correlation. A time for advancing the needle is determined based on a motion attribute of the reference. The needle is advanced by a robotic needle manipulator at the predetermined time along the path to accomplish the needle placement.

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