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Christopher Yerino

from Jamestown, NC
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Also known as:
Christopher D Yerino
Connected to:
Nerses Yeritsyan, 53Beverly K Yerk, 86Mara A Yerk, 43Rose M Yerka, 70Audrey D Yerke, 42Bonita B Yerke, 113Danica L Yerke, 42Norman J Yerke, 83Patti J Yerke, 64Peggy W Yerke, 86

Christopher Yerino Phones & Addresses

  • Jamestown, NC
  • 370 Whitney Ave, New Haven, CT 06511 (203) 867-5027
  • 53 Webster St, New Haven, CT 06511 (203) 867-5027
  • Rocky Hill, CT

Work

Company: Qorvo, inc. Jun 2018 Position: Senior process engineer

Education

Degree: Doctorates, Doctor of Philosophy School / High School: Yale University 2009 to 2015 Specialities: Electrical Engineering, Materials Science

Skills

Epitaxy • Chemical Mechanical Polishing • Cvd • Nanotechnology • Physics • Molecular Beam Epitaxy • Iii V Semiconductors • Semiconductors • Materials Science • Quantum Dots • Atomic Force Microscopy • Thin Films • Characterization • Mocvd • Gan • Transmission Electron Microscopy • Scanning Electron Microscopy • Photoluminescence • X Ray Diffraction • Microfabrication • Electrochemical Etching • Dry Etch • Wet Chemical Etching • Spectroscopy • Matlab • Mathematica

Interests

Molecular Beam Epitaxy (Mbe) • Iii V Semiconductors • Semiconductor Epitaxy • Quantum Dots • Process Engineering • Microfabrication • Semiconductor Devices • Surface Physics

Industries

Semiconductors

Resumes

Resumes

Christopher Yerino Photo 1

Senior Process Engineer

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Location:
221 Whitney Ave, New Haven, CT 06511
Industry:
Semiconductors
Work:
Qorvo, Inc.
Senior Process Engineer
Yale University Aug 2011 - May 2015
Ph.d Candidate at Yale University, Electrical Engineering Department
Yale University Sep 2009 - Jul 2011
M.s Candidate
Yale University Oct 2006 - Aug 2009
Research Associate
Education:
Yale University 2009 - 2015
Doctorates, Doctor of Philosophy, Electrical Engineering, Materials Science Yale University 2002 - 2006
Bachelors, Bachelor of Science, Physics Oak Park High School
Skills:
Epitaxy
Chemical Mechanical Polishing
Cvd
Nanotechnology
Physics
Molecular Beam Epitaxy
Iii V Semiconductors
Semiconductors
Materials Science
Quantum Dots
Atomic Force Microscopy
Thin Films
Characterization
Mocvd
Gan
Transmission Electron Microscopy
Scanning Electron Microscopy
Photoluminescence
X Ray Diffraction
Microfabrication
Electrochemical Etching
Dry Etch
Wet Chemical Etching
Spectroscopy
Matlab
Mathematica
Interests:
Molecular Beam Epitaxy (Mbe)
Iii V Semiconductors
Semiconductor Epitaxy
Quantum Dots
Process Engineering
Microfabrication
Semiconductor Devices
Surface Physics

Publications

Us Patents

Electronic Device For Pathogen Detection

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US Patent:
20130105317, May 2, 2013
Filed:
Oct 31, 2012
Appl. No.:
13/664967
Inventors:
Monika Weber - Wroclaw, PL
Siu Lung Lo - Mid-levels, HK
Hazael Fabrizio Montanaro Ochoa - Asuncion, PY
Christopher Daniel Yerino - New Haven CT, US
Mark A. Reed - Monroe CT, US
International Classification:
G01N 27/447
B82Y 15/00
US Classification:
204451, 204601, 204603, 977762
Abstract:
An apparatus and method for separating an analyte from a test sample, such as bacteria from blood components, based on their dielectric properties, localizing or condensing the analyte, flushing substantially all remaining waste products from the test sample, and detecting low concentrations of the analyte. Species movement is caused by a module array imparting opposing dielectrophoretic forces. The module array includes a plurality of microfluidic channels with connecting microfluidic waste channels for directing undesired material away from the analyte. An electric field is applied causing a positive dielectrophoretic force to the analyte to capture the analyte. The Clausius-Mossotti factor of the analyte is changed by flushing the analyte with a reference solution, which causes a negative dielectrophoretic force to facilitate release of the analyte. A field effect nanowire or nanoribbon sensor detects the analyte after capture.

Apparatus For Pathogen Detection

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US Patent:
20220212193, Jul 7, 2022
Filed:
Mar 24, 2022
Appl. No.:
17/703508
Inventors:
- Boston MA, US
Siu Lung Lo - Mid-levels, HK
Hazael Fabrizio Montanaro Ochoa - Asuncion, PY
Christopher Daniel Yerino - New Haven CT, US
Mark A. Reed - Monroe CT, US
International Classification:
B01L 3/00
B03C 5/00
B03C 5/02
Abstract:
An apparatus for separating an analyte from a test sample, such as bacteria from blood components, based on their dielectric properties, localizing or condensing the analyte, flushing substantially all remaining waste products from the test sample, and detecting low concentrations of the analyte. The module array includes a plurality of microfluidic channels with connecting microfluidic waste channels for directing undesired material away from the analyte. A detection method for separating and analyzing a contaminant using the apparatus allows for transporting a test sample having an analyte and a waste product through at least one microfluidic channel; generating dielectrophoretic forces on the test sample as the test sample is transported through the at least one microfluidic channel; trapping the test sample to separate the waste product from the analyte; separating the waste product from the analyte; and sensing, with a sensor, the analyte

Apparatus For Pathogen Detection

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US Patent:
20210039098, Feb 11, 2021
Filed:
Oct 15, 2020
Appl. No.:
17/071178
Inventors:
- Boston MA, US
Siu Lung Lo - Mid-Levels, HK
Hazael Fabrizio Montanaro Ochoa - Asuncion, PY
Christopher Daniel Yerino - New Haven CT, US
Mark A. Reed - Monroe CT, US
Assignee:
Fluid-Screen, Inc. - Boston MA
International Classification:
B01L 3/00
B03C 5/00
B03C 5/02
Abstract:
An apparatus for separating an analyte from a test sample, such as bacteria from blood components, based on their dielectric properties, localizing or condensing the analyte, flushing substantially all remaining waste products from the test sample, and detecting low concentrations of the analyte. The module array includes a plurality of microfluidic channels with connecting microfluidic waste channels for directing undesired material away from the analyte. An electric field is applied causing a positive dielectrophoretic force to the analyte to capture the analyte. The electric field is applied to at least one electrode having a plurality of concentric rings or concentric arcs extending radially outwards from a center point, electrically connected to a voltage source such that when voltage is applied to the at least one electrode, the concentric rings or concentric arcs alternate in voltage potential.

Apparatus For Pathogen Detection

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US Patent:
20210039099, Feb 11, 2021
Filed:
Oct 15, 2020
Appl. No.:
17/071202
Inventors:
- Boston MA, US
Siu Lung Lo - Mid-Levels, HK
Hazael Fabrizio Montanaro Ochoa - Asuncion, PY
Christopher Daniel Yerino - New Haven CT, US
Mark A. Reed - Monroe CT, US
Assignee:
Fluid-Screen, Inc. - Boston MA
International Classification:
B01L 3/00
B03C 5/00
B03C 5/02
Abstract:
An apparatus for separating an analyte from a test sample, such as bacteria from blood components, based on their dielectric properties, localizing or condensing the analyte, flushing substantially all remaining waste products from the test sample, and detecting low concentrations of the analyte. The module array includes a plurality of microfluidic channels with connecting microfluidic waste channels for directing undesired material away from the analyte. An electric field is applied causing a positive dielectrophoretic force to the analyte to capture the analyte. The electric field is applied to at least one electrode having a plurality of concentric rings or concentric arcs extending radially outwards from a center point, electrically connected to a voltage source such that when voltage is applied to the at least one electrode, the concentric rings or concentric arcs alternate in voltage potential.

Apparatus For Pathogen Detection

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US Patent:
20150107999, Apr 23, 2015
Filed:
Dec 24, 2014
Appl. No.:
14/582525
Inventors:
Monika Weber - New Haven CT, US
Mark A. Reed - Monroe CT, US
Hazael Fabrizio Montanaro Ochoa - Asuncion, PY
Christopher Daniel Yerino - New Haven CT, US
International Classification:
G01N 27/447
G01N 27/414
US Classification:
204603, 204604
Abstract:
An apparatus for separating an analyte from a test sample, such as bacteria from blood components, based on their dielectric properties, localizing or condensing the analyte, flushing substantially all remaining waste products from the test sample, and detecting low concentrations of the analyte. The module array includes a plurality of microfluidic channels with connecting microfluidic waste channels for directing undesired material away from the analyte. An electric field is applied causing a positive dielectrophoretic force to the analyte to capture the analyte. The electric field is applied to at least one electrode having a plurality of concentric rings or concentric arcs extending radially outwards from a center point, electrically connected to a voltage source such that when voltage is applied to the at least one electrode, the concentric rings or concentric arcs alternate in voltage potential.
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Christopher Yerino from Jamestown, NC Get Report