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Xinghua Li

from Horseheads, NY
Age ~59
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Also known as:
Li L Xinghua, Xing Huali, A Li, Li A
Phone and address:
14 Ambrose Dr, Horseheads, NY 14845
(607) 796-4688
Related to:
Yahui Li, 41
Connected to:
Aici Li, 51Anbei L Li, 70Arden Y Li, 42Baiyong Li, 55Biao Li, 56Binglin Li, 43Candace H Li, 30Changhong Li, 56Chenglong Li, 59Chine E Li, 55

Xinghua Li Phones & Addresses

  • 14 Ambrose Dr, Horseheads, NY 14845 (607) 796-4688
  • Painted Post, NY
  • 4302 College Main St, Bryan, TX 77801 (979) 846-2099 (979) 846-7260

Resumes

Resumes

Xinghua Li Photo 1

Research Associate

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Location:
Horseheads, NY
Industry:
Glass, Ceramics, & Concrete
Work:
Mobileaccess Networks
Research Associate
Mobileaccess Networks May 2001 - Jun 2012
Senior Research Scientist
Skills:
Optics
Materials Science
R&D
Photonics
Laser
Laser Physics
Design of Experiments
Thin Films
Characterization
Nanotechnology
Optoelectronics
Physics
Sensors
Spectroscopy
Optical Engineering
Nonlinear Optics
Research and Development
Zemax
Nanomaterials
Scanning Electron Microscopy
Powder X Ray Diffraction
Interferometry
Xinghua Li Photo 2

Xinghua Li

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Xinghua Li Photo 3

Xinghua Li

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Publications

Us Patents

Laser Separation Of Thin Laminated Glass Substrates For Flexible Display Applications

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US Patent:
8168514, May 1, 2012
Filed:
Aug 24, 2006
Appl. No.:
11/509448
Inventors:
Sean Matthew Garner - Elmira NY, US
Xinghua Li - Painted Post NY, US
Robert Stephen Wagner - Corning NY, US
Assignee:
Corning Incorporated - Corning NY
International Classification:
H01L 21/00
US Classification:
438463, 21912167
Abstract:
A method of separating a sheet of coated brittle material comprises the steps of providing a sheet of layered brittle material comprising a brittle layer and a coating material adhered to a surface of the brittle layer and applying a laser along a separation line in the sheet, thereby cutting the coating material and separating the brittle layer by inducing a stress fracture therein.

Method For Separating A Sheet Of Brittle Material

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US Patent:
8269138, Sep 18, 2012
Filed:
May 21, 2009
Appl. No.:
12/469794
Inventors:
Sean Matthew Garner - Elmira NY, US
Xinghua Li - Horseheads NY, US
Assignee:
Corning Incorporated - Corning NY
International Classification:
B23K 26/00
US Classification:
21912169, 65112, 225 935
Abstract:
A method for separating sheet of brittle material having a thickness equal to or less than about 1 mm is disclosed. Once an initial flaw or crack is produced, a full body crack can be propagated across a dimension of the brittle material with a laser beam that is substantially absorbed proximate the surface of the sheet to produce sub-sheets. In some embodiments, only a single pass of the laser beam over a surface of the sheet is necessary to separate the sheet. In other embodiments a plurality of passes may be used. Sub-sheets can be further processed into electronic devices by depositing thin film materials on the sub-piece.

Methods For Laser Scribing And Breaking Thin Glass

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US Patent:
8426767, Apr 23, 2013
Filed:
Aug 31, 2009
Appl. No.:
12/550592
Inventors:
Gregory Scott Glaesemann - Corning NY, US
Kyle C Hoff - Painted Post NY, US
Xinghua Li - Horseheads NY, US
Assignee:
Corning Incorporated - Corning NY
International Classification:
B28D 5/0011
US Classification:
21912168, 21912169, 2191217
Abstract:
A method of forming a vent in a glass substrate includes forming a defect in the glass substrate on a scribe line. A beam spot of a laser may be directed onto the defect and advanced along the scribe line. A cooling jet may be directed onto the defect such that the surface of the glass substrate is cooled from a maximum temperature. Thereafter, the cooling spot may be advanced along the scribe line with the beam spot to form the vent in the glass substrate.

Preventing Gas From Occupying A Spray Nozzle Used In A Process Of Scoring A Hot Glass Sheet

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US Patent:
8549881, Oct 8, 2013
Filed:
Feb 2, 2012
Appl. No.:
13/364595
Inventors:
James William Brown - Painted Post NY, US
Patrick Michael Gargano - Corning NY, US
Keith Mitchell Hill - Horseheads NY, US
Xinghua Li - Horseheads NY, US
William Paul Ryszytiwskyj - Corning NY, US
Naiyue Zhou - Painted Post NY, US
Assignee:
Corning Incorporated - Corning NY
International Classification:
C03B 21/02
C03B 33/02
C03B 33/10
C03B 33/023
US Classification:
65105, 65112
Abstract:
A spray nozzle is used in a process of quenching a hot glass sheet during a laser scoring process or other high energy glass heating process. The nozzle is located in proximity to the glass sheet, creating gas in liquid used to quench the glass located in the nozzle (e. g. , water). The gas (e. g. , air bubbles) is removed from the quenching liquid. Then, the spray nozzle is used to spray the quenching liquid onto the sheet at a location trailing laser scoring of the sheet. The spray nozzle has a purge opening and tubing leading to a discharge location. The spray nozzle can have a sloped passageway that pre-stages gas bubbles near the purge opening. The spray nozzle can include a cooling coil passing around the nozzle passageway to cool the quenching liquid passing through the nozzle, and increase the solubility of bubbles in the quenching liquid.

Laser Cutting Method

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US Patent:
8584490, Nov 19, 2013
Filed:
Feb 18, 2011
Appl. No.:
13/030605
Inventors:
Sean Matthew Garner - Elmira NY, US
Xinghua Li - Horseheads NY, US
Assignee:
Corning Incorporated - Corning NY
International Classification:
C03B 33/09
C03B 33/023
US Classification:
65112, 21912167, 21912169, 2191216
Abstract:
A method for cutting a sheet of material having a thickness of at most 400 μm using an electromagnetic wave beam (EWB) such as a laser. The method comprises forming a surface initiation defect and irradiating the sheet along a predetermined path within a short distance from the initiation defect a scanning EWB, such that the sheet is heated and cooled to allow for the propagation of the initiation defect into the predetermined path, and further along the predetermined path to result in a separation of the sheet along the predetermined irradiation path. This method can be advantageously used to cut glass sheets having a thin thickness to result in high-quality edge substantially free of major defects carried over from the initiation defect.

Methods For Separating Glass Articles From Strengthened Glass Substrate Sheets

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US Patent:
8607590, Dec 17, 2013
Filed:
Nov 28, 2011
Appl. No.:
13/304955
Inventors:
Gregory Scott Glaesemann - Corning NY, US
Xinghua Li - Horseheads NY, US
Daniel Duane Strong - Hector NY, US
Assignee:
Corning Incorporated - Corning NY
International Classification:
C03B 33/023
C03B 15/00
US Classification:
65105, 65 61, 65112, 65 3014, 21912167, 21912172, 21912185
Abstract:
Methods for separating glass articles from strengthened glass substrate sheets and strengthened glass substrate sheets are provided. In one embodiment, a method includes forming at least one groove on at least one surface of the glass substrate sheet and strengthening the glass substrate sheet by a strengthening process. The groove defines the glass article and partially extends through a thickness of the glass substrate sheet. The method further includes generating an initiation defect on the groove at an initiation location to cause a through crack to self-propagate through the glass substrate sheet along the groove, thereby separating the glass article from the glass substrate sheet. In another embodiment, a strengthened glass substrate sheet includes a strengthened glass having a glass article groove and an initiation groove on a surface, the glass article groove defining a glass article.

Method Of Fabrication Of Hermetically Sealed Glass Package

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US Patent:
20050199599, Sep 15, 2005
Filed:
Mar 9, 2004
Appl. No.:
10/796752
Inventors:
Xinghua Li - Painted Post NY, US
Sujanto Widjaja - Corning NY, US
International Classification:
B23K026/20
B23K026/00
US Classification:
219121850
Abstract:
A method of sealing an OLED structure includes providing a top glass substrate and a bottom glass substrate, and at least one layer of organic material between the glass substrates. The illustrative method also includes focusing a relatively high power, a relatively short-duration laser radiation onto a region of one glass substrate, thereby heating a focal volume through multiphoton absorption. The intense heat causes the interface of the glass to swell and bond onto the other glass substrate. An apparatus for sealing the structure and a sealed package are also disclosed.

Porous Substrates And Arrays Comprising The Same

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US Patent:
20060141486, Jun 29, 2006
Filed:
Dec 29, 2004
Appl. No.:
11/027400
Inventors:
Everett Coonan - Painted Post NY, US
Ye Fang - Painted Post NY, US
Ann Ferrie - Painted Post NY, US
Xiaodong Fu - Painted Post NY, US
Yulong Hong - Painted Post NY, US
Thomas Leslie - Horseheads NY, US
Xinghua Li - Horseheads NY, US
Beth Monahan - Painted Post NY, US
Eric Mozdy - Elmira NY, US
Dirk Muller - Lafayette CO, US
Cameron Tanner - Horseheads NY, US
Patrick Tepesch - Corning NY, US
John Wight - Corning NY, US
Po Yuen - Corning NY, US
International Classification:
C12Q 1/68
G01N 33/53
C12M 1/34
B05D 3/02
US Classification:
435006000, 435007100, 435287200, 427002110
Abstract:
The present invention relates to arrays comprising porous substrates for attachment of nucleic acids, polypeptides, membranes, or other biological or organic materials. In many embodiments, the arrays of the present invention have a flow-through configuration such that washing buffers or samples can access to the porous substrates from at least two sides of the arrays. The present invention also features arrays comprising UV-compatible porous substrates, arrays comprising three-dimensional membranes in sol-gels, and arrays comprising silica-based porous substrates prepared using a low-temperature fusion process.
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Xinghua Li from Horseheads, NY, age ~59 Get Report