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Haojun Fu

from Irvine, CA
Age ~49
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Also known as:
Hojun Fu, Haojun Wang, Fu Haojun, N Fu
Related to:
Jin-Hong Wang, 55Yinzi WangHsin Wang ChaoYijun Wang, 34Xiao M Liu, 56Kai Wang, 35Fengyi Wang, 49Jihong Wang, 54Zhifan F Huang, 56Xinyan Wang, 33Xiaohan Wang, 36Jim FuZhiqi Wang, 37Chonghua Wang, 34Stephanie Liu, 27
Connected to:
Angelo Fu, 35Chen W Fu, 92Ching Fu, 62Cynthia W Fu, 48Guoguang Fu, 44Joan C Fu, 62Joshua S Fu, 61Kehui K Fu, 36Kiu B FuLaw Y Fu, 48

Haojun Fu Phones & Addresses

  • Irvine, CA
  • Yorba Linda, CA
  • Naperville, IL
  • 1011 New Hope St, Norristown, PA 19401 (610) 292-0873
  • Bethlehem, PA
  • Conshohocken, PA
  • Anaheim, CA
  • Chicago, IL

Work

Company: Haemonetics corp 2012 Position: Principal scientist/engineer, product development

Education

School / High School: LEHIGH UNIVERSITY- Bethlehem, PA 2004 Specialities: Ph.D. in Mechanical Engineering and Mechanics

Skills

Product Development • New Product Innovation • R&D • Project Management • Medical Devices • Medical Diagnostics • Biomedical Engineering • Cross-functional Team Leadership • Market Research • Quality System • Design Control • Consumer Insight • Design Engineering • Rapid Prototyping • Microfluidics • Mechanical Engineeing • Fluid Mechanics • Structural Analysis • Fluidics • Medical Disposable • FEM • CFD • Design of Experiment • Verification and Validation • FDA • Failure Analysis • Intellectural Property

Resumes

Resumes

Haojun Fu Photo 1

Haojun Fu Naperville, IL

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Work:
HAEMONETICS CORP

2012 to 2012
Principal Scientist/Engineer, Product Development
HAEMONETICS CORP

2008 to 2012
Lead Scientist/Engineer, Product Development
HAEMONETICS CORP

2006 to 2008
Senior Scientist/Engineer, Product Development
ARRYX INC
Chicago, IL
2005 to 2006
Scientist/Product Development Engineer
LEHIGH UNIVERSITY
Bethlehem, PA
2001 to 2005
Research Associate
Education:
LEHIGH UNIVERSITY
Bethlehem, PA
2004
Ph.D. in Mechanical Engineering and Mechanics
SHANGHAI JIAO TONG UNIVERSITY
1999
M.S. in Structural Engineering and Mechanics
XI'AN JIAO TONG UNIVERSITY
1996
B.S. in Engineering Mechanics
Skills:
Product Development, New Product Innovation, R&D, Project Management, Medical Devices, Medical Diagnostics, Biomedical Engineering, Cross-functional Team Leadership, Market Research, Quality System, Design Control, Consumer Insight, Design Engineering, Rapid Prototyping, Microfluidics, Mechanical Engineeing, Fluid Mechanics, Structural Analysis, Fluidics, Medical Disposable, FEM, CFD, Design of Experiment, Verification and Validation, FDA, Failure Analysis, Intellectural Property
Haojun Fu Photo 2

Haojun Fu

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Publications

Us Patents

Surface Mapping By Optical Manipulation Of Particles In Relation To A Functionalized Surface

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US Patent:
20110026009, Feb 3, 2011
Filed:
Sep 14, 2007
Appl. No.:
12/440949
Inventors:
Christopher Knutson - Chicago IL, US
Crystal Duke - Stanford CA, US
Gary Stacey - Marshfield MA, US
Dan Mueth - Chicago IL, US
Evan Tanner - La Jolla CA, US
Osman Akcakir - Chicago IL, US
Haojun Fu - Naperville IL, US
Robert Lancelot - Barrington IL, US
Tania Chakrabarty - Chicago IL, US
Kenneth Bradley - Hinsdale IL, US
Assignee:
HAEMONETICS CORPORATION - Braintree MA
International Classification:
G01N 33/48
G01B 11/30
US Classification:
356 39, 356601
Abstract:
Methods and apparatus for analyzing surface properties of particles are provided. A method for analyzing the surface properties of the particle includes a associating a first particle with a first capture zone having a specific binding affinity for a first chemical species, applying an optical force to the first particle, sensing a response of the first particle to the optical force, and using the sensed response to determine the presence, absence or quantity of the first chemical species on the first particle surface. This process may be repeated in parallel to test multiple particles. In addition to directly testing the surface properties of the particles, the method can be used in direct, indirect and competitive assays to determine the presence, absence or quantity of free or immobilized analytes. A fluidic cartridge with capture zones having avidities that are tuned for the use of optical forces is provided. A software routine for performing the method is also provided.

Particle Sorting Using Fluid Streams

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US Patent:
20110177547, Jul 21, 2011
Filed:
Jan 14, 2011
Appl. No.:
13/007176
Inventors:
Zheng Xia - Chicago IL, US
Tania Chakrabarty - Chicago IL, US
Haojun Fu - Naperville IL, US
Dan Mueth - Chicago IL, US
Assignee:
ARRYX, INC. - Chicago IL
International Classification:
C12Q 1/04
G01N 1/20
H05H 3/00
G02B 1/04
B29D 11/00
US Classification:
435 34, 7386341, 7386361, 250428, 250430, 250251, 428220, 264 27
Abstract:
A fluidic device includes an arrangement of channels for introducing a sample containing particles of interest into a processing chamber. The chamber is in fluid communication with collecting channels via low-flow connection channels. Particles in the sample may be observed and diverted from the processing chamber by application of a motive force such as optical trapping into a collection channel. Once in the collection channel, particles can be collected, including by trapping in a porous matrix.

Methods And Devices For Immunodiagnostic Applications

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US Patent:
20120202225, Aug 9, 2012
Filed:
Feb 1, 2012
Appl. No.:
13/364279
Inventors:
Christopher R. Knutson - Chicago IL, US
Christopher F. Grant - Chicago IL, US
Timothy R. Kline - State College PA, US
Derek D. Doorneweerd - Lockport IL, US
Sridevi Kurella - Aurora IL, US
Daniel M. Mueth - Chicago IL, US
Matthew K. Runyon - Chicago IL, US
Haojun Fu - Naperville IL, US
Sergio O. Guevara - Chicago IL, US
Assignee:
ARRYX, INC. - Chicago IL
International Classification:
G01N 33/53
C12M 1/34
G01N 33/561
G01N 33/563
G01N 33/558
US Classification:
435 725, 4352872
Abstract:
Methods and devices for evaluating a sample from a subject for detecting a target red blood cell protein or antibody are disclosed. In one embodiment, optimized antibody screening methods and devices significantly reduce the level of non-specific binding to a surface (e.g., a test surface bound with a red blood cell preparation), thus allowing for more efficient detection and reduced test time. In other embodiments, the invention provides methods and devices for target capturing that include a substantially planar surface, optionally having an optimized angle, for capture. Alternative solid phase geometries for capture are disclosed. Optimized methods for cell deposition are also disclosed. Thus, optimized methods, devices, kits, assays for evaluating a sample are disclosed.

Centrifuge Rotor For Separation And Processing Of Complex Fluids

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US Patent:
20120202673, Aug 9, 2012
Filed:
Feb 1, 2012
Appl. No.:
13/363938
Inventors:
Matthew K. Runyon - East Grand Rapids MI, US
Daniel M. Mueth - Chicago IL, US
Sergio O. Guevara - Chicago IL, US
Haojun Fu - Naperville IL, US
International Classification:
B04B 7/02
B01D 43/00
US Classification:
494 37, 494 60
Abstract:
A rotor is provided for use in a centrifuge system configured to spin the rotor for separating complex fluids. The rotor includes a housing configured to be secured by the centrifuge system and several chambers formed in the housing. Each chamber includes a first chamber portion having a port formed therein and a second chamber portion in fluid communication with the port of the first chamber portion. The second chamber portion may be disposed generally below the port of the first chamber portion. Other rotor designs and methods for separating complex fluids are further disclosed.

Methods And Apparatuses For Detection Of Positional Freedom Of Particles In Biological And Chemical Analyses And Applications In Immunodiagnostics

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US Patent:
20130274119, Oct 17, 2013
Filed:
May 25, 2011
Appl. No.:
13/699519
Inventors:
Christopher Knutson - Woodridge IL, US
Osman Akcakir - Plainville MA, US
Haojun Fu - Naperville IL, US
Assignee:
ARRYX, INC. - Chicago IL
International Classification:
G01N 33/80
US Classification:
506 9
Abstract:
The present invention relates to methods and apparatuses for the detection of positional freedom of particles used in biological, biochemical, physical, biophysical, and chemical analyses. In particular, the present invention relates to methods and apparatuses which can detect and characterize a population of particles/cells based upon their detected mobility. In one embodiment consistent with the invention, detection of certain cells is based on differences detected in populations of cells that bind to a substrate and those that exhibit weaker binding forces. Initially, cells are settled on the substrate, and in the presence of gravitational, natural thermodynamic pressure fluctuations, and other random or applied forces, some of the particles may exhibit translational movement. Particle movement is detected, and measurements are computed, according to the methods and apparatuses of the present invention, to determine the binding of specific analytes.

Suction Catheter Adaptor

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US Patent:
20200061321, Feb 27, 2020
Filed:
Nov 1, 2019
Appl. No.:
16/672191
Inventors:
- Mettawa IL, US
Haojun Fu - Yorba Linda CA, US
International Classification:
A61M 16/04
A61M 39/24
A61M 39/10
A61M 16/20
A61M 16/08
A61M 25/01
Abstract:
An exemplary suction catheter adaptor includes an adaptor body having a passageway between a proximal end and a distal end of the adaptor body. The proximal end of the adaptor body receives an instrument and, when coupled with an airway adaptor having a valve within a passageway between a proximal end and a distal end of the airway adaptor, the distal end of the adaptor body deflects the valve to permit the instrument to be advanced or retracted through the valve. A seal within the passageway of the adaptor body is biased to engage the valve during advancement of an instrument toward the valve, and the seal is disengaged when the instrument is retracted away from the valve. The valve, when not engaged, occludes the passageway between a proximal end and a distal end of the airway adaptor.

Airway Adapters And Suction Catheter Systems

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US Patent:
20190321575, Oct 24, 2019
Filed:
Jul 2, 2019
Appl. No.:
16/460840
Inventors:
- Mettawa IL, US
Haojun FU - Yorba Linda CA, US
Sibgat ULLA - Placentia CA, US
Ming LU - Pasadena CA, US
Christopher VARGA - Laguna Hills CA, US
Simon JUNG - Placentia CA, US
Charles Edward BEUCHAT - Trabuco Canyon CA, US
International Classification:
A61M 16/04
A61M 16/08
A61M 16/20
Abstract:
Airway adapters and suction catheter systems, and methods of using the same, are described herein. An exemplary airway adapter assembly may comprise a connector body portion having a first end and a second end. The connector body portion may define an elongate cavity having an axial center between the first and the second end. The exemplary airway adapter assembly may also comprise a valve coupled to the second end of the connector body. The exemplary airway adapter assembly may also comprise a ventilation base member comprising a tubular portion coupled to the second end of the connector body portion and ventilator port. The ventilator port may comprises a conduit having a first conduit end and a second conduit end, and the first conduit end may be coupled to the tubular portion through an articulable connection. An exemplary closed suction catheter system may comprise a suction control valve assembly and a closed suction catheter sheath.

Suction Catheter Adaptor

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US Patent:
20170143921, May 25, 2017
Filed:
Nov 17, 2016
Appl. No.:
15/354860
Inventors:
- Yorba Linda CA, US
Haojun FU - Yorba Linda CA, US
International Classification:
A61M 16/04
A61M 39/10
A61M 39/24
A61M 16/20
Abstract:
An exemplary suction catheter adaptor includes an adaptor body having a passageway between a proximal end and a distal end of the adaptor body. The proximal end of the adaptor body receives an instrument and, when coupled with an airway adaptor having a valve within a passageway between a proximal end and a distal end of the airway adaptor, the distal end of the adaptor body deflects the valve to permit the instrument to be advanced or retracted through the valve. A seal within the passageway of the adaptor body is biased to engage the valve during advancement of an instrument toward the valve, and the seal is disengaged when the instrument is retracted away from the valve. The valve, when not engaged, occludes the passageway between a proximal end and a distal end of the airway adaptor.
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Haojun Fu from Irvine, CA, age ~49 Get Report