Song I Han from Alameda, CA, age 51

Resumes

Principal

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Location:

Alameda, CA

Industry:

Marketing And Advertising

Work:

Song Han Consulting
Principal
Afrigrains Oct 2014 - May 2017
Chief Marketing Officer
Publicis Life Brands Jan 2013 - Oct 2014
Svp, Group Account Director
Mccann Healthcare Jun 2010 - Dec 2012
Vp, Management Supervisor
Neon A Draftfcb Company May 2008 - May 2010
Vice President, Account Group Supervisor

Skills:

Interactive Advertising
Interactive Marketing
Integrated Marketing
Digital Strategy
Marketing Management
Direct Marketing
Creative Strategy
Brand Development
Mobile Marketing
Relationship Marketing
Marketing Strategy
Advertising
Direct Mail
Creative Direction
Digital Marketing
Brand Architecture
Digital Media

Song Han

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Accounts Payable Specialist

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Work:

Accounts Payable Specialist

Song Han

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Song Han

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Song Han

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Sr. Wifi Embedded Software Qa Engineer At Broadcom

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Location:

San Francisco Bay Area

Industry:

Computer Software

Owner, Roboo Mobile Search

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Location:

San Francisco Bay Area

Industry:

Internet

Business Records

Name / Title

Company / Classification

Phones & Addresses

Song Han
President

Han Kelly Dry Cleaners Inc
Industrial Building Construction

8411 37 Ave, Flushing, NY 11372

Song Han

H&H International LLC

892 Constitution Dr, San Mateo, CA 94404

Song Jae Han

HY SYNERGY, INC

246 W 38 St #1107, New York, NY 10018
246 W 38 St #1107, Flushing, NY 11358

Song Duck Han

CINCINNATI FIRST CHURCH

Song Han
President

PHOSLED, INC

892 Constitution Dr, San Mateo, CA 94404
892 Constition Dr, San Mateo, CA 94404

Song Han
President

MESHFIRE, INC

195 Recino St, Fremont, CA 94539

Publications

Us Patents

Template Electrode Structures For Depositing Active Materials

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US Patent:

8257866, Sep 4, 2012

Filed:

Mar 2, 2011

Appl. No.:

13/039031

Inventors:

Ghyrn E. Loveness - Menlo Park CA, US
William S. DelHagen - Menlo Park CA, US
Rainer Fasching - Mill Valley CA, US
Song Han - Foster City CA, US
Zuqin Liu - Sunnyvale CA, US

Assignee:

Amprius, Inc. - Sunnyvale CA

International Classification:

H01M 4/58
H01M 4/13
H01M 4/42
H01M 4/38
H01M 4/72

US Classification:

429223, 429221, 429220, 4292315, 42923195, 429229, 429233

Abstract:

Provided are examples of electrochemically active electrode materials, electrodes using such materials, and methods of manufacturing such electrodes. Electrochemically active electrode materials may include a high surface area template containing a metal silicide and a layer of high capacity active material deposited over the template. The template may serve as a mechanical support for the active material and/or an electrical conductor between the active material and, for example, a substrate. Due to the high surface area of the template, even a thin layer of the active material can provide sufficient active material loading and corresponding battery capacity. As such, a thickness of the layer may be maintained below the fracture threshold of the active material used and preserve its structural integrity during battery cycling.

Interconnected Hollow Nanostructures Containing High Capacity Active Materials For Use In Rechargeable Batteries

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US Patent:

8450012, May 28, 2013

Filed:

May 25, 2010

Appl. No.:

12/787138

Inventors:

Yi Cui - Sunnyvale CA, US
Song Han - Foster City CA, US
Ghyrn E. Loveness - Menlo Park CA, US

Assignee:

Amprius, Inc. - Sunnyvale CA

International Classification:

H01M 5/58
H01M 4/90
H01M 4/583

US Classification:

429209, 429220, 4292181, 4292318, 977700, 2521821

Abstract:

Provided are electrode layers for use in rechargeable batteries, such as lithium ion batteries, and related fabrication techniques. These electrode layers have interconnected hollow nanostructures that contain high capacity electrochemically active materials, such as silicon, tin, and germanium. In certain embodiments, a fabrication technique involves forming a nanoscale coating around multiple template structures and at least partially removing and/or shrinking these structures to form hollow cavities. These cavities provide space for the active materials of the nanostructures to swell into during battery cycling. This design helps to reduce the risk of pulverization and to maintain electrical contacts among the nanostructures. It also provides a very high surface area available ionic communication with the electrolyte. The nanostructures have nanoscale shells but may be substantially larger in other dimensions.

Template Electrode Structures For Depositing Active Materials

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US Patent:

8556996, Oct 15, 2013

Filed:

Aug 1, 2012

Appl. No.:

13/564324

Inventors:

Ghyrn E. Loveness - Mountain View CA, US
William S. DelHagen - Menlo Park CA, US
Rainer Fasching - Mill Valley CA, US
Song Han - Foster City CA, US
Zuqin Liu - Sunnyvale CA, US

Assignee:

Amprius, Inc. - Sunnyvale CA

International Classification:

H01M 4/13
H01M 4/58
H01M 4/42
H01M 4/72
H01M 4/38
H01M 4/04
B05D 5/12
B82Y 30/00

US Classification:

296231, 429220, 429221, 4292315, 42923195, 429229, 429233, 4292318, 4271261, 977948

Abstract:

Open Structures In Substrates For Electrodes

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US Patent:

8637185, Jan 28, 2014

Filed:

Nov 11, 2010

Appl. No.:

12/944596

Inventors:

Eugene M. Berdichevsky - Menlo Park CA, US
Song Han - Foster City CA, US
Yi Cui - Stanford CA, US
Rainer J. Fasching - Mill Valley CA, US
Ghyrn E. Loveness - Menlo Park CA, US
William S. DelHagen - Menlo Park CA, US
Mark C. Platshon - Menlo Park CA, US

Assignee:

Amprius, Inc. - Sunnyvale CA

International Classification:

H01M 4/38

US Classification:

4292181, 429236

Abstract:

Provided are conductive substrates having open structures and fractional void volumes of at least about 25% or, more specifically, or at least about 50% for use in lithium ion batteries. Nanostructured active materials are deposited over such substrates to form battery electrodes. The fractional void volume may help to accommodate swelling of some active materials during cycling. In certain embodiments, overall outer dimensions of the electrode remain substantially the same during cycling, while internal open spaces of the conductive substrate provide space for any volumetric changes in the nanostructured active materials. In specific embodiments, a nanoscale layer of silicon is deposited over a metallic mesh to form a negative electrode. In another embodiment, a conductive substrate is a perforated sheet with multiple openings, such that a nanostructured active material is deposited into the openings but not on the external surfaces of the sheet.

Electrode Including Nanostructures For Rechargeable Cells

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US Patent:

20100285358, Nov 11, 2010

Filed:

May 7, 2009

Appl. No.:

12/437529

Inventors:

Yi Cui - Sunnyvale CA, US
Song Han - San Mateo CA, US
Mark C. Platshon - Menlo Park CA, US

Assignee:

AMPRIUS, INC. - Menlo Park CA

International Classification:

H01M 4/58
H01M 4/82

US Classification:

4292181, 42923195, 4292315, 429220, 296231, 4292318, 429221, 4292314, 977762

Abstract:

A lithium ion battery electrode includes silicon nanowires used for insertion of lithium ions and including a conductivity enhancement, the nanowires growth-rooted to the conductive substrate.

Electrospinning To Fabricate Battery Electrodes

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US Patent:

20100330419, Dec 30, 2010

Filed:

May 25, 2010

Appl. No.:

12/787132

Inventors:

Yi Cui - Sunnyvale CA, US
Song Han - Foster City CA, US
Ghyrn E. Loveness - Menlo Park CA, US
Mark C. Platshon - Menlo Park CA, US

International Classification:

H01M 4/02
B05D 5/12
H01M 4/82

US Classification:

429209, 427458, 296235, 427 77

Abstract:

Provided are electrode assemblies that contain electrochemically active materials for use in batteries, such as lithium ion batteries. Provided also are methods for fabricating these assemblies. In certain embodiments, fabrication involves one or more electrospinning operations such as, for example, electrospinning to deposit a layer of fibers on a conductive substrate. These fibers may include one or more electrochemically active materials. In the same or other embodiments, these or similar fibers can serve as templates for depositing one or more electrochemically active materials. Some examples of active materials include silicon, tin, and/or germanium. Also provided are electrode fibers that include cores containing a first active material and shells or optionally second shells (surrounding inner shells) containing a second active material. The second active material is electrochemically opposite to the first active material. One or more shells can function as a separator and/or as an electrolyte.

Core-Shell High Capacity Nanowires For Battery Electrodes

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US Patent:

20100330421, Dec 30, 2010

Filed:

May 25, 2010

Appl. No.:

12/787168

Inventors:

Yi Cui - Sunnyvale CA, US
Song Han - Foster City CA, US
Ghyrn E. Loveness - Menlo Park CA, US

International Classification:

H01M 4/583
H01M 4/02
H01M 4/58
H01M 4/62
B05D 5/12
B32B 37/14

US Classification:

429217, 429209, 4292181, 4292318, 427 77, 156294, 977742, 977948

Abstract:

Provided are nanostructures containing electrochemically active materials, battery electrodes containing these nanostructures for use in electrochemical batteries, such as lithium ion batteries, and methods of forming the nanostructures and battery electrodes. The nanostructures include conductive cores, inner shells containing active materials, and outer shells partially coating the inner shells. The high capacity active materials having a stable capacity of at least about 1000 mAh/g can be used. Some examples include silicon, tin, and/or germanium. The outer shells may be configured to substantially prevent formation of Solid Electrolyte lnterphase (SEI) layers directly on the inner shells. The conductive cores and/or outer shells may include carbon containing materials. The nanostructures are used to form battery electrodes, in which the nanostructures that are in electronic communication with conductive substrates of the electrodes.

Intermediate Layers For Electrode Fabrication

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US Patent:

20110111300, May 12, 2011

Filed:

Nov 11, 2010

Appl. No.:

12/944576

Inventors:

William S. DelHagen - Menlo Park CA, US
Rainer J. Fasching - Mill Valley CA, US
Ghyrn E. Loveness - Menlo Park CA, US
Song Han - Foster City CA, US
Eugene M. Berdichevsky - Menlo Park CA, US
Constantin I. Stefan - San Jose CA, US
Yi Cui - Sanford CA, US
Mark C. Platshon - Menlo Park CA, US

Assignee:

AMPRIUS INC. - Menlo Park CA

International Classification:

H01M 4/134
H01M 4/13
H01M 4/139
B05D 5/12

US Classification:

429223, 429209, 4292181, 427 77, 427 78, 977700

Abstract:

Provided are novel electrodes for use in lithium ion batteries. An electrode includes one or more intermediate layers positioned between a substrate and an electrochemically active material. Intermediate layers may be made from chromium, titanium, tantalum, tungsten, nickel, molybdenum, lithium, as well as other materials and their combinations. An intermediate layer may protect the substrate, help to redistribute catalyst during deposition of the electrochemically active material, improve adhesion between the active material and substrate, and other purposes. In certain embodiments, an active material includes one or more high capacity active materials, such as silicon, tin, and germanium. These materials tend to swell during cycling and may loose mechanical and/or electrical connection to the substrate. A flexible intermediate layer may compensate for swelling and provide a robust adhesion interface. Provided also are novel methods of fabricating electrodes containing one or more intermediate layers.

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