1
Antoni S Gozdz, Caroline N Schmutz, Jean Marie Tarascon: Rechargeable lithium intercalation battery with hybrid polymeric electrolyte. Bell Communications Research, Leonard Charles Suchyta, Lionel N White, March 22, 1994: US05296318 (142 worldwide citation)

A rechargeable battery comprises lithium intercalation compound electrodes and an interposed electrolyte of flexible polymer containing a lithium salt dissolved in a polymer-compatible solvent. Preferred components include tertiary lithium manganese oxide compound positive electrodes, carbon negativ ...


2
Antoni S Gozdz, Caroline N Schmutz, Jean Marie Tarascon, Paul C Warren: Rechargeable lithium battery construction. Bell Communications Research, Leonard Charles Suchyta, Lionel N White, December 26, 1995: US05478668 (93 worldwide citation)

A rechargeable lithium ion battery comprises a plurality of interleaved flexible electrolytic cells, each of which is a unitary planar laminated structure comprising polymeric anode, cathode, and intermediate electrolyte layers disposed between electrically conductive anode and cathode collector foi ...


3
Antoni S Gozdz, Caroline N Schmutz, Jean Marie Tarascon, Paul C Warren: Method of making an electrolyte activatable lithium-ion rechargeable battery cell. Bell Communications Research, Leonard Charles Suchyta, Lionel N White, October 10, 1995: US05456000 (92 worldwide citation)

Li-ion rechargeable battery cell electrode and electrolyte/separator elements formulated as layers of plasticized polymeric matrix compositions are laminated to form a unitary battery cell structure. The structure may be stored indefinitely, since it is essentially devoid of electrolyte solution whi ...


4
Antoni S Gozdz, Jean Marie Tarascon, Paul C Warren: Electrolyte activatable lithium-ion rechargeable battery cell. Bell Communications Research, Leonard Charles Suchyta, Lionel N White, October 24, 1995: US05460904 (90 worldwide citation)

Li-ion rechargeable battery cell electrode and electrolyte/separator elements formulated as layers of plasticized polymeric matrix compositions are laminated to form a unitary battery cell structure. The structure may be stored indefinitely, since it is essentially devoid of electrolyte solution whi ...


5
Antoni S Gozdz, Caroline N Schmutz, Jean Marie Tarascon, Paul C Warren: Polymeric electrolytic cell separator membrane. Bell Communications Research, Leonard Charles Suchyta, Lionel N White, May 23, 1995: US05418091 (88 worldwide citation)

A flexible polymeric film useful as an interelectrode separator or electrolyte member in electrolytic devices, such as rechargeable batteries, comprises a copolymer of vinylidene fluoride with 8 to 25% hexafluoropropylene. The film may be cast or formed as a self-supporting layer retaining about 20% ...


6
Antoni S Gozdz, Caroline N Schmutz, Jean Marie Tarascon, Paul C Warren: Lithium secondary battery extraction method. Bell Communications Research, Leonard Charles Suchyta, Lionel N White, July 30, 1996: US05540741 (69 worldwide citation)

The present invention is a method of fabricating a rechargeable battery structure by extracting plasticizer from plastic battery preforms to render them insensitive to water while maintaining the homogeneous characteristics of the plastic materials to allow subsequent activation of the batteries thr ...


7
Antoni S Gozdz, Caroline N Schmutz, Paul C Warren: Low resistance rechargeable lithium-ion battery. Bell Communications Research, Lionel N White, December 24, 1996: US05587253 (66 worldwide citation)

A perforate current collector element (21) embedded within at least one of its polymeric intercalation electrodes (23) reduces the internal resistance of a flexible rechargeable lithium-ion battery (20).


8
Antoni S Gozdz, Andrew L Loxley, Anthony E Pullen: Polymer composition for encapsulation of electrode particles. A123 Systems, Wilmer Cutler Pickering Hale & Dorr, January 15, 2008: US07318982 (60 worldwide citation)

Compositions and methods are provided for coating electroactive particles. Coating materials include a conductive component and a low refractive index component. Coatings are provided in which the conductive and low refractive index components are linked and/or do not form phases having lengthscales ...


9
Antoni S Gozdz, Paul C Warren: Method for making laminated rechargeable battery cells. Bell Communications Research, Joseph Giordano, David A Hey, Loria B Yeadon, November 24, 1998: US05840087 (60 worldwide citation)

Formation of a unitary laminate rechargeable battery comprising electrode and separator/electrolyte elements of polymer composition utilizes apparatus comprising compression rollers of sufficient hardness to resist deformation during laminating contact with such elements. Maximum progressive compres ...


10
Yet Ming Chiang, William Douglas Moorehead, Antoni S Gozdz, Richard K Holman, Andrew Loxley, Gilbert N Riley Jr, Michael S Viola: Battery structures, self-organizing structures and related methods. A123 Systems, Massachusetts Institute of Technology, Wilmer Cutler Pickering Hale & Dorr, August 25, 2009: US07579112 (58 worldwide citation)

An energy storage device includes a first electrode comprising a first material and a second electrode comprising a second material, at least a portion of the first and second materials forming an interpenetrating network when dispersed in an electrolyte, the electrolyte, the first material and the ...