Qiang M Li from 10 Chereb Ct, Strongs Neck, NY 11733, age 61

Professional Records

Lawyers & Attorneys

Qiang Li - Lawyer

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Address:

O'Melveny & Myers LLP
(212) 307-7000 (Office)

Licenses:

New York - Currently registered 1998

Education:

Columbia Law School

Specialties:

Corporate / Incorporation - 34%
Construction / Development - 33%
Energy / Utilities - 33%

Qiang Li - Lawyer

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Address:

Paul Hastings LLP
(108) 567-5300 (Office)

Licenses:

New York - Currently registered 2012

Education:

Harvard Law School

Medicine Doctors

Qiang Li

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Specialties:

Cardiovascular Disease, Nuclear Cardiology

Work:

Providence Medical GroupProvidence Cardiology
1800 Cooks Hl Rd STE D, Centralia, WA 98531
(360) 827-7800 (phone), (360) 486-6731 (fax)

Providence Medical GroupProvidence Cardiology Associates
500 Lilly Rd NE STE 100, Olympia, WA 98506
(360) 413-8525 (phone), (360) 486-6731 (fax)

Education:

Medical School
Szechwan Med Coll, Chengtu, China
Graduated: 1987

Procedures:

Cardioversion
Pacemaker and Defibrillator Procedures
Angioplasty
Cardiac Catheterization
Cardiac Stress Test
Continuous EKG
Echocardiogram
Electrocardiogram (EKG or ECG)

Conditions:

Cardiac Arrhythmia
Cardiomyopathy
Conduction Disorders
Mitral Valvular Disease
Acute Myocardial Infarction (AMI)

Languages:

English

Description:

Dr. Li graduated from the Szechwan Med Coll, Chengtu, China in 1987. He works in Olympia, WA and 1 other location and specializes in Cardiovascular Disease and Nuclear Cardiology. Dr. Li is affiliated with Providence Centralia Hospital and Providence St Peter Hospital.

Qiang Li

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Specialties:

Diagnostic Radiology, Neuroradiology

Work:

Imaging Services MRI
1220 S Cedar Crst Blvd, Allentown, PA 18103
(610) 740-9500 (phone), (610) 740-0288 (fax)

Lehigh Valley Diagnostic ImagMedical Imaging Of Lehigh Valley
1255 S Cedar Crst Blvd STE 3600, Allentown, PA 18103
(610) 770-1606 (phone), (610) 740-0560 (fax)

Medical Imaging Of Lehigh Valley PC
17 & Chew St 3600, Allentown, PA 18104
(610) 770-1606 (phone), (610) 740-0560 (fax)

Education:

Medical School
Henan Med Univ, Zhengzhou City, Henan, China
Graduated: 1989

Procedures:

Arthrocentesis
Lumbar Puncture

Languages:

English

Description:

Dr. Li graduated from the Henan Med Univ, Zhengzhou City, Henan, China in 1989. He works in Allentown, PA and 2 other locations and specializes in Diagnostic Radiology and Neuroradiology. Dr. Li is affiliated with Lehigh Valley Hospital 17Th Street, Lehigh Valley Hospital Cedar Crest, Pocono Medical Center and Sacred Heart Hospital.

Qiang Li

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Specialties:

Urology

Publications

Us Patents

Cobalt Oxide Thermoelectric Compositions And Uses Thereof

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US Patent:

20070039641, Feb 22, 2007

Filed:

Aug 19, 2005

Appl. No.:

11/207148

Inventors:

Yufeng Hu - Patchogue NY, US
Qiang Li - Setauket NY, US
Weidong Si - Middle Island NY, US

International Classification:

H01L 35/16

US Classification:

136238000

Abstract:

The present invention relates to thermoelectric cobalt oxide compositions and their use in thermal management and generation of electrical power. The invention particularly relates to thin films of these cobalt oxide compositions on a variety of substrates, particularly silicon-group substrates.

Synthesis Of High-Efficiency Thermoelectric Materials

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US Patent:

20110120517, May 26, 2011

Filed:

Nov 12, 2010

Appl. No.:

12/945677

Inventors:

Qiang Li - Setauket NY, US

Assignee:

Brookhaven Science Associates, LLC - Upton NY

International Classification:

H01L 35/28
H01L 35/12
B22F 1/00
B22F 3/10
B22F 3/12
H01L 35/34

US Classification:

136203, 1362361, 136240, 136238, 419 31, 75228, 136201

Abstract:

A process for the fabrication of high efficiency thermoelectric materials using non-equilibrium synthesis routes is described. In one embodiment a molten alloy comprising a predetermined ratio of elements which will constitute the thermoelectric material is quenched at a cooling rate in excess of, for example, 10or 10K/s using a process such as melt spinning. The rapidly solidified particles are then placed into a mold having the desired size and shape. The particles in the mold are simultaneously compressed and sintered at elevated temperatures for a short duration using, for example, hot pressing or spark plasma sintering. The overall process provides improved microstructural control and greatly expands the accessible phase space, permitting the formation of dense, single-phase structures with nanosized grain boundaries and minimal or no impurity segregation. The process is especially advantageous for the formation of n- and p-type filled skutterudites which may be incorporated in thermoelectric devices.

Iron Based Superconducting Structures And Methods For Making The Same

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US Patent:

20130196856, Aug 1, 2013

Filed:

Aug 2, 2011

Appl. No.:

13/814003

Inventors:

Qiang Li - Setauket NY, US
Weidong Si - Middle Island NY, US

Assignee:

BROOKHAVENSCIENCE ASSOICATES, LLC - Upton NY

International Classification:

H01L 39/12
H01L 39/24

US Classification:

505191, 505150, 505237, 505236, 505238, 505230, 505470, 505474, 505434, 427 62, 29599, 1741251, 428141

Abstract:

In some embodiments of the invention, superconducting structures are described. In certain embodiments the superconducting structures described are thin films of iron-based superconductors on textured substrates; in some aspects a method for producing thin films of iron-based superconductors on textured substrates is disclosed. In some embodiments applications of thin films of iron-based superconductors on textured substrates are described. Also contemplated is the formation of a film of iron-based superconductor having a thickness and an in-plane lattice constant formed on a textured substrate having a thickness and an in-plane lattice constant similar to the in-plane lattice constant of the iron-based superconductor.

Solid-State Catalysis Of Superconducting Cuprates

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US Patent:

20130324414, Dec 5, 2013

Filed:

Aug 4, 2011

Appl. No.:

13/814284

Inventors:

Vyacheslav F. Solovyov - Rocky Point NY, US
Qiang Li - Setauket NY, US

Assignee:

BROOKHAVEN SCIENCE ASSOCIATES, LLC - Upton NY

International Classification:

H01L 39/12
H01L 39/24

US Classification:

505126, 505125, 505470, 2525191, 423263

Abstract:

Catalytically active (001) ceria substrates or buffers are used to modify the structure of the epitaxial high temperature superconductor YBaCuO. The catalytically active substrate has a small lateral grain size, typically less than 50 nm, to provide a high density of nucleation sites, at some of which nucleate a previously unknown metastable phase. The modification is achieved by catalytically assisted synthesis of the metastable phase. The new phase, a long-period (3.5-nm) perovskite, intercalates into the YBaCuOmatrix without negatively affecting the critical temperature of the film. Analysis of electron microscopy and synchrotron X-ray diffraction data allow identification of the phase as a long-period YBaCuOderivative formed through short-range cation displacement. The films, from about 100-nm to about 1000-nm thick, exhibit strong enhancement of the critical current density, reaching a maximum of approximately 4.2 MA/cmat 77 K.

Metallic Components With Enhanced Mechanical Strength Through Surface Mechanical Grinding

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US Patent:

20220251674, Aug 11, 2022

Filed:

Apr 27, 2022

Appl. No.:

17/730557

Inventors:

- West Lafayette IN, US
Qiang Li - Ames IA, US
Zhongxia Shang - Lafayette IN, US
Xinghang Zhang - West Lafayette IN, US

Assignee:

Purdue Research Foundation - West Lafayette IN

International Classification:

C21D 7/08
B24B 1/00
B23D 61/02

Abstract:

A method of strengthening a component made of a metallic material. The method includes subjecting the component to a mechanical grinding process incorporating a relative motion between a tool and the component forming a gradient structure on the surface of the component, resulting in increased tensile strength of the component. A method of strengthening a component made of a TWIP steel. The method includes subjecting the component made of TWIP steel to a mechanical grinding process incorporating a relative motion between a tool and the component forming a gradient structure containing a surface nanolaminate layer, a shear band layer, and an inner deformation twinned layer, resulting in increased tensile strength of the component. A component made of a TWIP steel containing a gradient structure with a surface nanolaminate layer, a shear band layer, and a deformation twinned layer.

Long Length High Temperature Superconducting Wires With Uniform Ion Implanted Pinning Microstructures

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US Patent:

20170062098, Mar 2, 2017

Filed:

Aug 25, 2016

Appl. No.:

15/246739

Inventors:

- Devens MA, US
- Upton NY, US
Qiang Li - Setauket NY, US
Vyacheslav F. Solovyov - Rocky Point NY, US

International Classification:

H01B 12/04
H01B 13/00

Abstract:

A method for producing a long length high temperature superconductor wire, includes providing a substrate, having a surface with a length of at least 50 meters and a width. The surface supports a biaxially textured high temperature superconducting layer and the biaxially textured high temperature superconducting layer has a length and a width corresponding to the length and width of the surface of the substrate. The method includes irradiating the biaxially textured high temperature superconductor layer with an ion beam impinging uniformly along the length and across the width of the biaxially textured high temperature superconductor layer to produce a uniform distribution of pinning microstructures in the biaxially textured high temperature superconductor layer.

Fast Superconducting Switch For Superconducting Power Devices

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US Patent:

20150255200, Sep 10, 2015

Filed:

Oct 8, 2013

Appl. No.:

14/432787

Inventors:

- Upton NY, US
Qiang Li - Setauket NY, US

International Classification:

H01F 6/00
H01L 39/22

Abstract:

A superconducting magnetic energy storage device that can maintain a large ratio of the stored energy to the static energy loss, and has the ability to by-pass the current through a fast, high-voltage superconducting switch. More particularly, this invention relates to the design and application of novel high-voltage superconducting switch provided with a direct heating of the active superconducting layer through a metal substrate either by transport or by inductive current, and the protection of the superconducting layer by cryogenically-cooled metal-oxide-semiconductor field-effect transistors.

Radio Frequency-Assisted Fast Superconducting Switch

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US Patent:

20150045228, Feb 12, 2015

Filed:

Apr 9, 2013

Appl. No.:

14/385094

Inventors:

- Upton NY, US
Qiang Li - Setauket NY, US

Assignee:

Brookhaven Science Associates, LLC - Upton NY

International Classification:

H02H 9/02
H03K 17/92

US Classification:

505191, 505211, 505300, 327366, 29599

Abstract:

A radio frequency-assisted fast superconducting switch is described. A superconductor is closely coupled to a radio frequency (RF) coil. To turn the switch “off,” i.e., to induce a transition to the normal, resistive state in the superconductor, a voltage burst is applied to the RF coil. This voltage burst is sufficient to induce a current in the coupled superconductor. The combination of the induced current with any other direct current flowing through the superconductor is sufficient to exceed the critical current of the superconductor at the operating temperature, inducing a transition to the normal, resistive state. A by-pass MOSFET may be configured in parallel with the superconductor to act as a current shunt, allowing the voltage across the superconductor to drop below a certain value, at which time the superconductor undergoes a transition to the superconducting state and the switch is reset.

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