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Shuqiang Yang Yang

from Austin, TX
Age ~51

Shuqiang Yang Phones & Addresses

  • 1420 Milagro Dr, Austin, TX 78733
  • 2501 Lake Austin Blvd, Austin, TX 78703 (512) 481-1223
  • 3455 Lake Austin Blvd, Austin, TX 78703 (512) 481-1223
  • 1500 Royal Crest Dr, Austin, TX 78741 (512) 445-2081
  • Wethersfield, CT
  • Bloomington, MN
  • 2501 Lake Austin Blvd APT B107, Austin, TX 78703 (512) 626-3818

Work

Position: Machine Operators, Assemblers, and Inspectors Occupations

Resumes

Resumes

Shuqiang Yang Photo 1

Principal Process Engineer

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Location:
Austin, TX
Industry:
Nanotechnology
Work:
Molecular Imprints, Inc.
Principal Process Engineer

Molecular Imprints, Inc. May 2008 - Apr 2015
Senior Development Engineer

Seagate Technology 2007 - 2007
Intern

Magic Leap 2007 - 2007
Principal Process Engineer
Education:
Shandong University
Bachelors, Bachelor of Science
The University of Texas at Austin
Doctorates, Doctor of Philosophy, Physics, Philosophy
Skills:
Thin Films
Nanofabrication
Characterization
Materials Science
Afm
Pecvd
Physics
Semiconductors
Semiconductor Process
Photolithography
Dry Etch
Nano Imprinting
Matlab
Design of Experiments
Simulations
Nanotechnology
Failure Analysis
Metrology
Semiconductor Processing
Thin Film Deposition
Thin Film Sloar Cell
Languages:
English
Mandarin
Shuqiang Yang Photo 2

Lead Process Engineer

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Location:
Austin, TX
Industry:
Nanotechnology
Work:
Molecular Imprints, Inc.
Lead Process Engineer
Shuqiang Yang Photo 3

Shuqiang Yang

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Publications

Us Patents

Nano-Patterned Active Layers Formed By Nano-Imprint Lithography

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US Patent:
20100090341, Apr 15, 2010
Filed:
Oct 13, 2009
Appl. No.:
12/578286
Inventors:
Fen Wan - Austin TX, US
Frank Y. Xu - Round Rock TX, US
Sidlgata V. Sreenivasan - Austin TX, US
Shuqiang Yang - Austin TX, US
Assignee:
MOLECULAR IMPRINTS, INC. - Austin TX
BOARD OF REGENTS, THE UNIVERSITY OF TEXAS SYSTEM - Austin TX
International Classification:
H01L 23/50
H01L 21/3205
US Classification:
257749, 438665, 257E23079, 257E21299
Abstract:
Patterned active layers formed by nano-imprint lithography for use in devices such as photovoltaic cells and hybrid solar cells. One such photovoltaic cell includes a first electrode and a first electrically conductive layer electrically coupled to the first electrode. The first conductive layer has a multiplicity of protrusions and recesses formed by a nano-imprint lithography process. A second electrically conductive layer substantially fills the recesses and covers the protrusions of the first conductive layer, and a second electrode is electrically coupled to the second conductive layer. A circuit electrically connects the first electrode and the second electrode.

Large Area Patterning Of Nano-Sized Shapes

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US Patent:
20100120251, May 13, 2010
Filed:
Nov 12, 2009
Appl. No.:
12/616896
Inventors:
Sidlgata V. Sreenivasan - Austin TX, US
Shuqiang Yang - Austin TX, US
Frank Y. Xu - Round Rock TX, US
Dwayne L. LaBrake - Cedar Park TX, US
Assignee:
MOLECULAR IMPRINTS, INC. - Austin TX
BOARD OF REGENTS, THE UNIVERSITY OF TEXAS SYSTEM - Austin TX
International Classification:
H01L 21/302
US Classification:
438694, 438689, 257E21214
Abstract:
Methods for creating nano-shaped patterns are described. This approach may be used to directly pattern substrates and/or create imprint lithography molds that may be subsequently used to directly replicate nano-shaped patterns into other substrates in a high throughput process.

Nanostructured Organic Solar Cells

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US Patent:
20110030770, Feb 10, 2011
Filed:
Jul 23, 2010
Appl. No.:
12/842806
Inventors:
Sidlgata V. Sreenivasan - Austin TX, US
Shuqiang Yang - Austin TX, US
Frank Y. Xu - Round Rock TX, US
Fen Wan - Austin TX, US
Assignee:
MOLECULAR IMPRINTS, INC. - Austin TX
BOARD OF REGENTS, THE UNIVERSITY OF TEXAS SYSTEM - Austin TX
International Classification:
H01L 31/0352
US Classification:
136255
Abstract:
Solar cells having at least one N-type material layer and at least one P-type material layer forming a patterned p-n junction are described. A conducting layer may provide electrical communication between the p-n junction and an electrode layer.

Nanostructured Thin Film Inorganic Solar Cells

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US Patent:
20110048518, Mar 3, 2011
Filed:
Aug 17, 2010
Appl. No.:
12/857816
Inventors:
Shuqiang Yang - Austin TX, US
Sidlgata V. Sreenivasan - Austin TX, US
Frank Y. Xu - Round Rock TX, US
Assignee:
MOLECULAR IMPRINTS, INC. - Austin TX
BOARD OF REGENTS, THE UNIVERSITY OF TEXAS SYSTEM - Austin TX
International Classification:
H01L 31/0352
H01L 31/105
H01L 31/18
US Classification:
136255, 136256, 438 71, 257E31038, 257E31061
Abstract:
Inorganic solar cells having a nano-patterned p-n or p-i-n junction to reduce electron and hole travel distance to the separation interface to be less than the magnitude of the drift length or diffusion length, and meanwhile to maintain adequate active material to absorb photons. Formation of the inorganic solar cells may include one or more nano-lithography steps.

Functional Nanoparticles

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US Patent:
20110049096, Mar 3, 2011
Filed:
Aug 11, 2010
Appl. No.:
12/854359
Inventors:
Sidlgata V. Sreenivasan - Austin TX, US
Shuqiang Yang - Austin TX, US
Frank Y. Xu - Round Rock TX, US
Vikramjit Singh - Austin TX, US
Assignee:
BOARD OF REGENTS, THE UNIVERSITY OF TEXAS SYSTEM - Austin TX
MOLECULAR IMPRINTS, INC. - Austin TX
International Classification:
B29C 59/16
B29C 59/02
US Classification:
216 40, 264293, 264447
Abstract:
Functional nanoparticles may be formed using at least one nano-lithography step. In one embodiment, sacrificial material may be patterned on a multi-layer substrate using an imprint lithography system. The pattern may be further etched into the multi-layer substrate. Functional material may then be deposited on multi-layer substrate and solidified. At least a portion of the functional material may then be removed to provide a crown surface exposing pillars. Pillars may be removed from multi-layer substrate forming functional nanoparticles.

Solar Cell Fabrication By Nanoimprint Lithography

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US Patent:
20110180127, Jul 28, 2011
Filed:
Jan 28, 2011
Appl. No.:
13/016006
Inventors:
Fen Wan - Austin TX, US
Shuqiang Yang - Austin TX, US
Frank Y. Xu - Round Rock TX, US
Weijun Liu - Cedar Park TX, US
Edward Brian Fletcher - Austin TX, US
Sidlgata V. Sreenivasan - Austin TX, US
Michael N. Miller - Austin TX, US
Darren D. Donaldson - Austin TX, US
Assignee:
MOLECULAR IMPRINTS, INC. - Austin TX
International Classification:
H01L 31/02
H01L 31/0232
US Classification:
136252, 438 72, 257E31127
Abstract:
Fabricating a solar cell stack includes forming a nanopatterned polymeric layer on a first surface of a silicon wafer and etching the first surface of the silicon wafer to transfer a pattern of the nanopatterned polymeric layer to the first surface of the silicon wafer. A layer of reflective electrode material is formed on a second surface of the silicon wafer. The nanopatterned first surface of the silicon wafer undergoes a buffered oxide etching. After the buffered oxide etching, the nanopatterned first surface of the silicon wafer is treated to decrease a contact angle of water on the nanopatterned first surface. Electron donor material is deposited on the nanopatterned first surface of the silicon wafer to form an electron donor layer, and a transparent electrode material is deposited on the electron donor layer to form a transparent electrode layer on the electron donor layer.

Nanostructured Solar Cell

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US Patent:
20110277827, Nov 17, 2011
Filed:
May 11, 2011
Appl. No.:
13/105422
Inventors:
Shuqiang Yang - Austin TX, US
Michael N. Miller - Austin TX, US
Mohamed M. Hilali - Austin TX, US
Fen Wan - Austin TX, US
Gerard M. Schmid - Austin TX, US
Liang Wang - Austin TX, US
Sidlgata V. Sreenivasan - Austin TX, US
Frank Y. Xu - Round Rock TX, US
Assignee:
BOARD OF REGENTS, THE UNIVERSITY OF TEXAS SYSTEM - Austin TX
MOLECULAR IMPRINTS, INC. - Austin TX
International Classification:
H01L 31/06
H01L 31/0216
H01L 31/0236
B82Y 99/00
US Classification:
136255, 438 71, 438 98, 977948, 257E3113, 257E31119
Abstract:
Systems and methods for fabrication of nanostructured solar cells having arrays of nanostructures are described, including nanostructured solar cells having a repeating pattern of pyramid nanostructures, providing for low cost thin-film solar cells with improved PCE.

Method And System For Variable Optical Thickness Waveguides For Augmented Reality Devices

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US Patent:
20220283371, Sep 8, 2022
Filed:
Mar 25, 2022
Appl. No.:
17/705202
Inventors:
- Plantation FL, US
Ryan Jason Ong - Austin TX, US
Victor Kai Liu - Mountain View CA, US
Samarth Bhargava - Saratoga CA, US
Christophe Peroz - Tokyo, JP
Vikramjit Singh - Pflugerville TX, US
Marlon Edward Menezes - Austin TX, US
Shuqiang Yang - Austin TX, US
Frank Y. Xu - Austin TX, US
Assignee:
Magic Leap, Inc. - Plantation FL
International Classification:
G02B 6/13
G02B 6/122
G02B 26/08
F21V 8/00
Abstract:
An augmented reality device includes a projector, projector optics optically coupled to the projector, and an eyepiece optically coupled to the projector optics. The eyepiece includes an eyepiece waveguide characterized by lateral dimensions and an optical path length difference as a function of one or more of the lateral dimensions.
Shuqiang Yang Yang from Austin, TX, age ~51 Get Report