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Nanostructured Polymer Electrodes

Detailed Technology Description

None

Supplementary Information

Patent Number: US20110229759A1
Application Number: US2010968146A
Inventor: Yazami, Rachid | Weiss, Cedric M. | Kaner, Richard | D'Arcy, Julio
Priority Date: 14 Dec 2009
Priority Number: US20110229759A1
Application Date: 14 Dec 2010
Publication Date: 22 Sep 2011
IPC Current: H01M000460 | B05D000512 | H01G0009042 | H01G0009145 | H01G000915 | H01G0009155 | B82Y003000 | B82Y009900
US Class: 429213 | 361500 | 361502 | 361503 | 361523 | 427079 | 977762 | 977788 | 977948
Assignee Applicant: California Institute of Technology,Pasadena | Regents of the University of California,Oakland
Title: ELECTRODES INCORPORATING NANOSTRUCTURED POLYMER FILMS FOR ELECTROCHEMICAL ION STORAGE
Usefulness: ELECTRODES INCORPORATING NANOSTRUCTURED POLYMER FILMS FOR ELECTROCHEMICAL ION STORAGE
Summary: The ion storage electrode is used in an electrochemical device (claimed).
Novelty: Ion storage electrode used in an electrochemical device, comprises a substrate having a nanofibrillar film with a thickness of a monolayer disposed on it, the film being formed from a set of doped amphoteric conjugate polymer nanofibers

Industry

Chemical/Material

Sub Category

Chemical/Material Application

Application No.

9196426

Others

Additional Technologies by these Inventors

• Rapid Bulk Synthesis of Carbon Nanotubes and Graphite Encapsulated Metal Nanoparticles
• Enantioseparation of Amino Acids Using a Chiral Recognition Polymer
• Rapid Solid-State Metathesis Routes to Nanostructured Silicon-Germanium
• Polyanaline Nanofibers as Hydrogen Sensors
• Polyaniline Nanofiber Composite Materials: New Chemical Sensors for Phosgene
• Mechanochemical Synthesis of Mg2Si and Related Compounds and Alloys
• Polyanaline Nanofibers

Tech ID/UC Case

23698/2010-480-0

Related Cases

2010-480-0

*Abstract

Professor Kaner and colleagues at UCLA and Caltech have developed novel electrode structures for use in the storage of ions made with novel nanostructured polymer films. This technology takes advantage of a new class of nanofiber conjugate polymer materials to form amphoteric electrodes that demonstrate improved cycling properties and remarkable application flexibility.  

*IP Issue Date

Nov 24, 2015

*Principal Investigator

Name: Julio D'Arcy

Department:

Name: Richard Kaner

Department:

Name: Cedric Weiss

Department:

Name: Rachid Yazami

Department:

Country/Region

USA