Bin Li

US Patent:

8308971, Nov 13, 2012

Filed:

Apr 30, 2012

Appl. No.:

13/459773

Inventors:

Vinay V. Bhat - San Diego CA, US
Gang Cheng - San Diego CA, US
Steven Kaye - San Diego CA, US
Bin Li - San Diego CA, US
Risa Olugbile - San Diego CA, US
Jen-Hsien Yang - San Diego CA, US

Assignee:

Wildcat Discovery Technologies, Inc. - San Diego CA

International Classification:

H01G 9/02
H01B 1/00
H01B 1/12
H01M 6/16
C07F 7/10
C07F 7/04

US Classification:

252 622, 252500, 556418, 429341

Abstract:

Described herein are materials for use in electrolytes that provide a number of desirable characteristics when implemented within batteries, such as high stability during battery cycling up to high temperatures high voltages, high discharge capacity, high coulombic efficiency, and excellent retention of discharge capacity and coulombic efficiency over several cycles of charging and discharging. In some embodiments, a high voltage electrolyte includes a base electrolyte and a set of additive compounds, which impart these desirable performance characteristics.

US Patent:

8454855, Jun 4, 2013

Filed:

May 7, 2010

Appl. No.:

12/776284

Inventors:

Mark S. Bailey - San Diego CA, US
Steven S. Kaye - San Diego CA, US
Bin Li - San Diego CA, US

Assignee:

Wildcat Discovery Technologies, Inc. - San Diego CA

International Classification:

C01B 21/092
C01B 3/04

US Classification:

25218234, 423413, 4236481

Abstract:

Described herein are hydrogen storage materials having desirable characteristics for a variety of applications, such as automobile applications. In one embodiment, a hydrogen storage material includes: (1) a mixed imide having a formula LiMgNH; and (2) a set of additives; wherein each of i, k, and l is in the range of 1. 7 to 2. 3, and j is in the range of 0. 7 to 1. 3; and wherein the hydrogen storage material is configured to absorb at least 3. 1 wt. % of Hwithin 30 minutes of exposure to Hgas at a temperature in the range of 100 C. to 140 C. and a pressure in the range of 45 bar to 50 bar.

US Patent:

20030059811, Mar 27, 2003

Filed:

Jun 13, 2002

Appl. No.:

10/170758

Inventors:

Hakim Djaballah - San Diego CA, US
Scott Rongey - San Diego CA, US
Rupal Patel - San Diego CA, US
Mei Wang - San Diego CA, US
Joseph Coyle - San Diego CA, US
Bin Li - San Diego CA, US
Stephen Worland - San Diego CA, US

International Classification:

C12Q001/68
G01N033/53
G01N033/542

US Classification:

435/006000, 435/007900

Abstract:

The present invention provides methods of screening for ligands of target molecules. The methods of the present invention include assays in which a target molecule is subjected to denaturing conditions, and compounds are screened for the ability to alter the susceptibility of the target to unfolding. The methods of the present invention use fluorescence detection to determine that degree of unfolding of a target molecule. In some aspects of the present invention, fluorescence resonance energy transfer (FRET) is detected. In other aspects of the invention, fluorescence polarization (FP) is detected. In preferred embodiments, a target molecule such as a target protein is heated to a temperature, called T, at which at least a portion of the target molecule unfolds, in the presence of a test compound. In some embodiments of the present invention, the degree of unfolding of the target molecule is determined by binding of a specific binding member specific for the unfolded form of a target molecule that is coupled to a fluorophore that can participate in FRET. In some other embodiments of the present invention, the degree of unfolding of a target molecule is determined by FRET detection of aggregates of the target molecule. In yet other embodiments of the present invention, the degree of unfolding of a target molecule is determined by detection of fluorescence polarization of aggregates of the target molecule. The present invention provides sensitive, high throughput screens for identifying ligands of target molecules that are not dependent on the identity or function of the target.

US Patent:

20120090539, Apr 19, 2012

Filed:

Oct 13, 2011

Appl. No.:

13/272469

Inventors:

Justin James Dutton - San Diego CA, US
Paul Christopher Ziegelbauer - San Diego CA, US
Doron Greenberg - Agoura Hills CA, US
David James Brecht - San Diego CA, US
Bin Li - San Diego CA, US

Assignee:

Wildcat Discovery Technologies - San Diego CA

International Classification:

C23C 14/00

US Classification:

118 50, 427294

Abstract:

A device for infusing liquid into material samples includes a container assembly configured to contain multiple material samples submerged in liquid. The material samples have pores containing air or gas. A pressure source and a vacuum source are both operatively connectable to the container assembly and alternately communicable with the container assembly to force the liquid to at least substantially fill the pores. The samples are thus ready for further processing, testing or use. A method of filling pores in material samples with liquid includes supporting multiple material samples within liquid in an airtight container assembly. The method further includes alternately applying a vacuum source and a pressure source to the container assembly, thereby replacing air with liquid in the pores of the material samples.

US Patent:

20120273716, Nov 1, 2012

Filed:

Dec 23, 2011

Appl. No.:

13/336600

Inventors:

Bin Li - San Diego CA, US
Steven Kaye - San Diego CA, US
Doron Greenberg - Agoura Hills CA, US
Conor Riley - San Diego CA, US
Jingning Shan - San Diego CA, US
Jen-Hsien Yang - San Diego CA, US

International Classification:

H01M 4/58

US Classification:

2521821

Abstract:

A cobalt-containing phosphate material can comprise lithium (Li) (or, alternatively or additionally other alkali metal(s)), cobalt (Co), phosphate (PO), and at least two additional metals other than Li and Co (e.g., as dopants and/or metal oxides), and can have a molar ratio of Co to a total amount of Co and the additional metals (e.g., as dopants and/or metal oxides) of at least 0.2, at least 0.3, at least 0.5, at least 0.7, or at least about 0.75. The cobalt-containing phosphate material can have a molar ratio of Co to a total amount of Co and the additional metals (e.g., as dopants and/or metal oxides) ranging from 0.2 to 0.98, from 0.3 to 0.98, from 0.3 to 0.94, from 0.5 to 0.98, from 0.5 to 0.94, or alternatively from 0.5 to 0.9, from 0.7 to 0.9, or from 0.75 to 0.85.

US Patent:

20120315534, Dec 13, 2012

Filed:

Apr 30, 2012

Appl. No.:

13/459734

Inventors:

Vinay BHAT - San Diego CA, US
Gang CHENG - San Diego CA, US
Steven KAYE - San Diego CA, US
Bin LI - San Diego CA, US
Risa OLUGBILE - San Diego CA, US
Jen Hsien YANG - San Diego CA, US

Assignee:

WILDCAT DISCOVERY TECHNOLOGIES, INC. - San Diego CA

International Classification:

H01M 10/052
C07F 7/10

US Classification:

429188, 556410

Abstract:

Described herein are materials for use in electrolytes that provide a number of desirable characteristics when implemented within batteries, such as high stability during battery cycling up to high temperatures high voltages, high discharge capacity, high coulombic efficiency, and excellent retention of discharge capacity and coulombic efficiency over several cycles of charging and discharging. In some embodiments, a high voltage electrolyte includes a base electrolyte and a set of additive compounds, which impart these desirable performance characteristics.

US Patent:

20120315536, Dec 13, 2012

Filed:

Apr 30, 2012

Appl. No.:

13/459702

Inventors:

Vinay BHAT - San Diego CA, US
Gang CHENG - San Diego CA, US
Steven KAYE - San Diego CA, US
Bin LI - San Diego CA, US
Risa OLUGBILE - San Diego CA, US
Jen Hsien YANG - San Diego CA, US

Assignee:

WILDCAT DISCOVERY TECHNOLOGIES, INC. - San Diego CA

International Classification:

H01M 10/056
H01M 6/00

US Classification:

429199, 429188, 296232

Abstract:

Described herein are materials for use in electrolytes that provide a number of desirable characteristics when implemented within batteries, such as high stability during battery cycling up to high temperatures high voltages, high discharge capacity, high coulombic efficiency, and excellent retention of discharge capacity and coulombic efficiency over several cycles of charging and discharging. In some embodiments, a high voltage electrolyte includes a base electrolyte and a set of additive compounds, which impart these desirable performance characteristics.

US Patent:

20120315551, Dec 13, 2012

Filed:

Apr 30, 2012

Appl. No.:

13/459515

Inventors:

Vinay V. BHAT - San Diego CA, US
Gang CHENG - San Diego CA, US
Steven KAYE - San Diego CA, US
Bin LI - San Diego CA, US
Risa OLUGBILE - San Diego CA, US
Jen Hsien YANG - San Diego CA, US

Assignee:

WILDCAT DISCOVERY TECHNOLOGIES, INC. - San Diego CA

International Classification:

H01M 10/056
H01M 10/04

US Classification:

429339, 429207, 429340, 429341, 296231, 296232

Abstract:

Described herein are materials for use in electrolytes that provide a number of desirable characteristics when implemented within batteries, such as high stability during battery cycling up to high temperatures high voltages, high discharge capacity, high coulombic efficiency, and excellent retention of discharge capacity and coulombic efficiency over several cycles of charging and discharging. In some embodiments, a high voltage electrolyte includes a base electrolyte and a set of additive compounds, which impart these desirable performance characteristics.

Address:

3372 Daley Ctr Dr, San Diego, CA 92123

VIN:

JHMFA362X8S029537

Make:

HONDA

Model:

CIVIC IMA

Year:

2008