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Mingqiang Q Yi

from San Pablo, CA
Age ~52
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Also known as:
Ming Qiang Yi, Ming Q Yi, Qiang M Yi, Yi M Qiang, Yi I Mingqiang, Yu Xiang, G Yi
Related to:
Sung Chi Huang, 75Huanming Ku, 58Tommy KuYuqiao Xiang, 57Yi I Liu, 53Mei F Hsi, 47Yichen L Liu, 47Xuehai Xiang, 36Sheng Ku Ting, 55Gina Y Ku, 53
Connected to:
Amanda C Yi, 39Becky M Yi, 43Bernard H Yi, 33Bi Yi, 66Celia Yi, 40Chau Yi, 74Chol H Yi, 62Chuan C Yi, 53Daisy Yi, 52Dale D Yi, 40

Mingqiang Yi Phones & Addresses

  • San Pablo, CA
  • Berkeley, CA
  • Media, PA
  • 220 33Rd St, Philadelphia, PA 19104

Work

Company: Microfluidic foundry llc 2011 Position: R&d director

Education

School / High School: University of Pennsylvania- Philadelphia, PA May 2001 Specialities: Ph.D. in Microfluidics

Resumes

Resumes

Mingqiang Yi Photo 1

Chief Executive Officer

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Location:
2580 Tara Hills Dr, San Pablo, CA 94806
Industry:
Mechanical Or Industrial Engineering
Work:
Microfluidic Foundry
Chief Executive Officer
Uc Berkeley
Specialist
Education:
University of Pennsylvania 1997 - 2001
Doctorates, Doctor of Philosophy Tsinghua University 1994 - 1997
Masters, Engineering Tsinghua University 1989 - 1994
Bachelors, Engineering
Skills:
Product Development
Materials
R&D
Project Management
New Business Development
Business Strategy
Simulations
Design of Experiments
Semiconductors
Six Sigma
Materials Science
Languages:
Mandarin
English
Mingqiang Yi Photo 2

Mingqiang Yi

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Mingqiang Yi Photo 3

Mingqiang Yi San Pablo, CA

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Work:
Microfluidic Foundry LLC

2011 to 2000
R&D Director
Alphabet Energy Inc

2009 to 2011
Process Engineering Manager
RheoSense Inc

2005 to 2009
Project Leader
University of California
Emeryville, CA
2003 to 2005
Associate Specialist
Lawrence Berkeley National Lab

2002 to 2003
Visiting Material Scientist Postdoc
Los Gatos Research Inc

2001 to 2002
MEMS Scientist
University of Pennsylvania

1997 to 2001
Graduate Research Fellow
Education:
University of Pennsylvania
Philadelphia, PA
May 2001
Ph.D. in Microfluidics
Tsinghua University
Dec 2000
M.S. in Mechanical Engineering

Business Records

Name / Title
Company / Classification
Phones & Addresses
Mingqiang Yi
Microfluidic Foundry LLC
Engineering Products & Services · Mfg Measuring/Controlling Devices
2580 Tara Hl Dr, Richmond, CA 94806

Publications

Us Patents

Arrays Of Long Nanostructures In Semiconductor Materials And Methods Thereof

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US Patent:
20120295074, Nov 22, 2012
Filed:
Nov 17, 2011
Appl. No.:
13/299179
Inventors:
Mingqiang Yi - San Pablo CA, US
Matthew L. Scullin - San Francisco CA, US
Gabriel Alejandro Matus - San Francisco CA, US
Dawn L. Hilken - Pleasant Hill CA, US
Chii Guang Lee - Fremont CA, US
Sylvain Muckenhirn - Santa Barbara CA, US
Assignee:
Alphabet Energy, Inc. - Hayward CA
International Classification:
B32B 3/14
H01L 21/308
D02G 3/22
H01L 29/06
US Classification:
4281951, 257 9, 438584, 428364, 4282921, 257E29022, 257E21231
Abstract:
An array of nanowires and method thereof. The array of nanowires includes a plurality of nanowires. The plurality of nanowires includes a plurality of first ends and a plurality of second ends respectively. For each of the plurality of nanowires, a corresponding first end selected from the plurality of first ends and a corresponding second end selected from the plurality of second ends are separated by a distance of at least 200 μm. All nanowires of the plurality of nanowires are substantially parallel to each other.

Low Thermal Conductivity Matrices With Embedded Nanostructures And Methods Thereof

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US Patent:
20120319082, Dec 20, 2012
Filed:
Dec 1, 2011
Appl. No.:
13/308945
Inventors:
Mingqiang Yi - San Pablo CA, US
Gabriel A. Matus - San Francisco CA, US
Matthew L. Scullin - San Francisco CA, US
Chii Guang Lee - Fremont CA, US
Sylvain Muckenhirn - Santa Barbara CA, US
Assignee:
Alphabet Energy, Inc. - Hayward CA
International Classification:
H01L 21/20
H01L 29/66
B82Y 15/00
B82Y 40/00
US Classification:
257 15, 438478, 257E29168, 257E2109, 977762, 977890
Abstract:
A matrix with at least one embedded array of nanowires and method thereof. The matrix includes nanowires and one or more fill materials located between the nanowires. Each of the nanowires including a first end and a second end. The nanowires are substantially parallel to each other and are fixed in position relative to each other by the one or more fill materials. Each of the one or more fill materials is associated with a thermal conductivity less than 50 Watts per meter per degree Kelvin. And, the matrix is associated with at least a sublimation temperature and a melting temperature, the sublimation temperature and the melting temperature each being above 350 C.

Arrays Of Filled Nanostructures With Protruding Segments And Methods Thereof

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US Patent:
20120152295, Jun 21, 2012
Filed:
Dec 20, 2011
Appl. No.:
13/331768
Inventors:
Gabriel A. Matus - San Francisco CA, US
Mingqiang Yi - San Pablo CA, US
Matthew L. Scullin - San Francisco CA, US
Justin Tynes Kardel - Oakland CA, US
Assignee:
Alphabet Energy, Inc. - Hayward CA
International Classification:
H01L 35/02
H01L 33/48
H01L 35/34
B82Y 99/00
B82Y 40/00
US Classification:
136200, 438 54, 136201, 977840, 977948, 257E21506
Abstract:
A structure and method for at least one array of nanowires partially embedded in a matrix includes nanowires and one or more fill materials located between the nanowires. Each of the nanowires including a first segment associated with a first end, a second segment associated with a second end, and a third segment between the first segment and the second segment. The nanowires are substantially parallel to each other and are fixed in position relative to each other by the one or more fill materials. The third segment is substantially surrounded by the one or more fill materials. The first segment protrudes from the one or more fill materials.

Mems Chip For Wind Speed Measurements

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US Patent:
20170199216, Jul 13, 2017
Filed:
Jan 22, 2013
Appl. No.:
14/655051
Inventors:
Mingqiang Yi - San Pablo CA, US
International Classification:
G01P 5/08
G01P 5/02
Abstract:
A MEMS chip for wind speed measurements is provided. The chip integrates one or multiple embedded channels and a pressure sensor. The pressure sensor consists of a sensing membrane with a cavity beneath it. Each channel has one end connects to the cavity while the other end opens on the edge of the chip. To measure the wind speed, the membrane faces the wind and the air stagnates onto it while the channel connects the cavity to the static pressure. And the membrane deforms according to the wind pressure. The wind speed is then derived from the measured wind pressure.

Arrays Of Filled Nanostructures With Protruding Segments And Methods Thereof

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US Patent:
20150147842, May 28, 2015
Filed:
Dec 11, 2014
Appl. No.:
14/567813
Inventors:
- Hayward CA, US
Mingqiang YI - San Pablo CA, US
Matthew L. SCULLIN - San Francisco CA, US
Justin Tynes KARDEL - Oakland CA, US
International Classification:
H01L 35/34
H01L 35/32
US Classification:
438 54
Abstract:
A structure and method for at least one array of nanowires partially embedded in a matrix includes nanowires and one or more fill materials located between the nanowires. Each of the nanowires including a first segment associated with a first end, a second segment associated with a second end, and a third segment between the first segment and the second segment. The nanowires are substantially parallel to each other and are fixed in position relative to each other by the one or more fill materials. The third segment is substantially surrounded by the one or more fill materials. The first segment protrudes from the one or more fill materials.
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Mingqiang Q Yi from San Pablo, CA, age ~52 Get Report