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Liangbing Hu

from Potomac, MD
Age ~42
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Also known as:
Bing Hu Liang
Phone and address:
10407 Democracy Ln, Rockville, MD 20854
Related to:
Yikai WuJeffrey Wu, 25Lai D Sam, 65Tina Y Wu, 71Peter M Zhu, 55Linxuan WuWeiliang Lee, 50Yonghan Hu, 57Feng Liang, 45Wei Qian, 59Bing Hu, 40Joyan Z Wu, 53
Connected to:
Abby Hu, 45Allen K Hu, 59Alyssa Hu, 29Anna T Hu, 79Ava Hu, 42Beata Hu, 82Benfang Hu, 45Betty M Hu, 77Billy G Hu, 45Bo Hu, 53

Liangbing Hu Phones & Addresses

  • 10407 Democracy Ln, Potomac, MD 20854
  • Rockville, MD
  • West Hyattsville, MD
  • College Park, MD
  • Mountain View, CA
  • Stanford, CA
  • Monterey Park, CA
  • Los Angeles, CA

Work

Company: University of maryland Aug 2011 Position: Professor

Education

Degree: Doctorates, Doctor of Philosophy School / High School: University of California, Los Angeles 2002 to 2007 Specialities: Physics

Skills

Nanomaterials • Nanotechnology • Thin Films • Materials Science • Batteries • Afm • Fuel Cells • Solar Cells • Characterization • Coatings • Spectroscopy • Xps • Powder X Ray Diffraction • Nanofabrication • Sputtering • Nanoparticles • Scanning Electron Microscopy • Carbon Nanotubes • Tem • Physics • Labview • Uv/Vis • Fluorescence Spectroscopy • Experimentation • Surface Chemistry • Microfabrication • Photolithography • Biosensors

Industries

Higher Education

Resumes

Resumes

Liangbing Hu Photo 1

Professor

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Location:
San Francisco, CA
Industry:
Higher Education
Work:
University of Maryland
Professor
University of Maryland
Assistant Professor
Stanford University Mar 2009 - Jul 2011
Postdoc
Unidym, Inc. Apr 2006 - Mar 2009
Scientist
Education:
University of California, Los Angeles 2002 - 2007
Doctorates, Doctor of Philosophy, Physics University of Science and Technology of China 1997 - 2002
Bachelors, Bachelor of Science, Applied Physics Stanford University
University of Maryland
Skills:
Nanomaterials
Nanotechnology
Thin Films
Materials Science
Batteries
Afm
Fuel Cells
Solar Cells
Characterization
Coatings
Spectroscopy
Xps
Powder X Ray Diffraction
Nanofabrication
Sputtering
Nanoparticles
Scanning Electron Microscopy
Carbon Nanotubes
Tem
Physics
Labview
Uv/Vis
Fluorescence Spectroscopy
Experimentation
Surface Chemistry
Microfabrication
Photolithography
Biosensors

Publications

Us Patents

Method Of Producing A Graphene Film As Transparent And Electrically Conducting Material

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US Patent:
7785557, Aug 31, 2010
Filed:
Sep 24, 2008
Appl. No.:
12/237361
Inventors:
George Gruner - Los Angeles CA, US
David Hecht - San Carlos CA, US
Liangbing Hu - Mountain View CA, US
Assignee:
Unidym, Inc. - Sunnyvale CA
International Classification:
H01B 19/04
US Classification:
423445R, 4234471, 423460, 427 58, 427162, 427180, 252500, 252511, 252378 R, 977734, 977737, 977742, 977753, 977832, 977834
Abstract:
A transparent and conductive film comprising at least one network of graphene flakes is described herein. This film may further comprise an interpenetrating network of other nanostructures, a polymer and/or a functionalization agent(s). A method of fabricating the above device is also described, and may comprise depositing graphene flakes in solution and evaporating solvent therefrom.

Touch Screen Devices Employing Nanostructure Networks

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US Patent:
8390589, Mar 5, 2013
Filed:
Jun 11, 2010
Appl. No.:
12/813799
Inventors:
Liangbing Hu - Mountain View CA, US
George Gruner - Los Angeles CA, US
Assignee:
Samsung Electronics Co., Ltd. - Gyeonggi-Do
International Classification:
G09G 5/00
US Classification:
345173, 345174, 345176, 178 1801, 178 1803
Abstract:
Touch screen displays comprising at least one nanostructure-film, and fabrication methods thereof, are discussed. Nanostructure-films may comprise, for example, a network(s) of nanotubes, nanowires, nanoparticles and/or graphene flakes. Such films are preferably at least semi-transparent and relatively flexible, making them well-suited for use in a variety of touch screen applications.

Compliant And Nonplanar Nanostructure Films

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US Patent:
20080317982, Dec 25, 2008
Filed:
Oct 15, 2007
Appl. No.:
11/872360
Inventors:
David Hecht - San Carlos CA, US
Liangbing Hu - Palo Alto CA, US
Jeffrey Jue - Belmont CA, US
George Gruner - Los Angeles CA, US
Assignee:
UNIDYM, INC. - Pasadena CA
International Classification:
B32B 1/08
B32B 5/16
US Classification:
428 341, 428 98, 977742
Abstract:
A coated substrate comprising a nanostructure film formed on a non-planar substrate is described. The coated substrate may further be compliant, optically transparent and/or electrically conductive. Fabrication methods thereof are also described.

Inert Gas Etching

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US Patent:
20090050601, Feb 26, 2009
Filed:
Aug 25, 2008
Appl. No.:
12/197457
Inventors:
Youngbae Park - Milpitas CA, US
Liangbing Hu - Mountain View CA, US
Assignee:
UNIDYM, INC. - Menlo Park CA
International Classification:
H01B 13/00
US Classification:
216 13, 977847
Abstract:
A method of patterning a nanostructure film using a plasma is described. The nanostructure film may substantially comprise carbon and/or carbon nanotubes. The plasma may comprise an inert gas. The plasma may be applied to the nanostructure film at close to atmospheric pressure and room temperature.

Conductive Fibrous Materials

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US Patent:
20110200873, Aug 18, 2011
Filed:
Oct 29, 2010
Appl. No.:
12/916053
Inventors:
Liangbing Hu - Mountain View CA, US
Jang Wook Choi - Daejeon, KR
Yuan Yang - Stanford CA, US
Yi Cui - Stanford CA, US
International Classification:
H01M 10/02
H01M 4/64
H01M 10/00
B05D 5/12
H01G 9/004
US Classification:
429188, 429211, 429122, 427121, 427 77, 361523
Abstract:
As consistent with various embodiments, an electronic device includes a fibrous material having a conductive coating thereon. The conductive coating includes conductive nanoparticles coupled to fibers in the fibrous material. The structure is implemented in connection with a variety of devices, such as a capacitive device or a battery. Other embodiments are directed to forming conductive fibrous sheets, in dispersing a nanomaterial in a solution and applying the solution to a fibrous sheet, such as commercial paper, to form a conductive sheet.

Three Dimensional Electrodes Useful For Microbial Fuel Cells

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US Patent:
20110236769, Sep 29, 2011
Filed:
Mar 23, 2011
Appl. No.:
13/070158
Inventors:
Xing Xie - Stanford CA, US
Liangbing Hu - Mountain View CA, US
Yi Cui - Stanford CA, US
Craig S. Criddle - Redwood City CA, US
International Classification:
H01M 8/16
US Classification:
429401
Abstract:
An electrode for use in a microbial fuel cell comprising a porous substrate and nanostructure coating, for example, a carbon nanotube coating, is provided. The electrode can be configured as either a cathode or an anode, or both. Also provided is a microbial fuel cell comprising an anode compartment comprising an anode and a cathode compartment comprising a cathode and a metallic catalyst, wherein at least one of the anode and cathode comprises the porous substrate conformally coated with the nanostructure coating, and the cathode and anode are electrically connected. Methods for generating an electrical current with marine sediment or wastewater with the microbial fuel cell are also described.

Method For Forming A Nano-Textured Substrate

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US Patent:
20110244692, Oct 6, 2011
Filed:
Apr 1, 2011
Appl. No.:
13/078782
Inventors:
Sangmoo Jeong - Stanford CA, US
Liangbing Hu - Mountain View CA, US
Yi Cui - Stanford CA, US
Assignee:
The Board of Trustees of the Leland Stanford Junior University - Palo Alto CA
International Classification:
H01L 21/30
B82Y 40/00
US Classification:
438758, 977892, 257E21214
Abstract:
A method for forming a nano-textured surface on a substrate is disclosed. An illustrative embodiment of the present invention comprises dispensing of a nanoparticle ink of nanoparticles and solvent onto the surface of a substrate, distributing the ink to form substantially uniform, liquid nascent layer of the ink, and enabling the solvent to evaporate from the nanoparticle ink thereby inducing the nanoparticles to assemble into an texture layer. Methods in accordance with the present invention enable rapid formation of large-area substrates having a nano-textured surface. Embodiments of the present invention are well suited for texturing substrates using high-speed, large scale, roll-to-roll coating equipment, such as that used in office product, film coating, and flexible packaging applications. Further, embodiments of the present invention are well suited for use with rigid or flexible substrates.

Nanotube-Based Nanomaterial Membrane

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US Patent:
20110256451, Oct 20, 2011
Filed:
Dec 21, 2010
Appl. No.:
12/974552
Inventors:
Li-Feng Cui - Palo Alto CA, US
Yi Cui - Stanford CA, US
Liangbing Hu - Mountain View CA, US
International Classification:
H01M 4/02
H01L 31/02
B29C 39/36
B32B 3/26
H01M 4/66
B32B 19/00
B82Y 40/00
B82Y 30/00
US Classification:
4292181, 429245, 136252, 428688, 264105, 4283044, 977742, 977842, 977948
Abstract:
As consistent with various embodiments, an electronic device includes a carbon nanotube film having a plurality of carbon nanotubes. In certain embodiments, a coating, such as an inorganic coating, is formed on a surface of carbon nanotube. The nanotube film supports the device and facilitates electrical conduction therein. The coated nanotube is amenable to implementation with devices such as thin film batteries, a battery separator, thin film solar cells and high-energy Lithium ion batteries.
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Liangbing Hu from Potomac, MD, age ~42 Get Report