1
T Richard Jow, Shengshui Zhang, Kang Xu: Additive for enhancing the performance of electrochemical cells. The United States of America represented by the Secretary of the Army, William V Adams, William Randolph, February 6, 2007: US07172834 (37 worldwide citation)

A lithium battery includes an electrolyte comprised of a non-aqueous solvent, and a salt mixture. The salt mixture includes an alkali metal electrolyte salt and an additive salt having an anion of a mixed anhydride of oxalic acid and boric acid. Specific additive salts include lithium bis(oxalato) b ...


2
Jian Ping Zheng, T Richard Jow, Peter J Cygan: Capacitor having an enhanced dielectric breakdown strength. The United States of America represented by the Secretary of the Army, Michael Zelenka, William H Anderson, June 3, 1997: US05636100 (29 worldwide citation)

A capacitor having an enhanced dielectric breakdown strength is obtained m a base dielectric film by coating the base dielectric film on both sides with an adherent coated dielectric film having a dielectric constant that is at least 50 percent higher than that of the base dielectric film and that a ...


3
Shiao Ping S Yen, Carol R Lewis, Peter J Cygan, T Richard Jow: Cyanoresin, cyanoresin/cellulose triacetate blends for thin film, dielectric capacitors. The United States of America represented by the Administrator of the National Aeronautics and Space Administration, Thomas H Jones, February 6, 1996: US05490035 (25 worldwide citation)

Non brittle dielectric films are formed by blending a cyanoresin such as cyanoethyl, hydroxyethyl cellulose (CRE) with a compatible, more crystalline resin such as cellulose triacetate. The electrical breakdown strength of the blend is increased by orienting the films by uniaxial or biaxial stretchi ...


4
T Richard Jow, Jian Ping Zheng: Amorphous thin film electrode materials from hydrous metal oxides. The United States of America represented by the Secretary of the Army, Michael Zelenka, William H Anderson, February 4, 1997: US05600535 (24 worldwide citation)

This invention relates to a novel electrode material for electrochemical ) capacitors. This invention also relates to a novel method for making such electrode. The electrode material is an amorphous phase of ruthenium oxide formed directly on titanium (Ti) substrate. The method is the application of ...


5
Jian Ping Zheng, T Richard Jow: Electrode materials from hydrous metal and/or hydrous mixed metal oxides and method of preparing the same. The United States of America represented by the Secretary of the Army, Michael Zelenka, George B Tereschuk, December 22, 1998: US05851506 (19 worldwide citation)

An electrode material comprised of hydrous metal oxide, such as ruthenium oxide, is annealed up to temperature just below the temperature at which the hydrous metal oxide would crystallize. Therefore, the hydrous metal oxide remains amorphous or non-crystalline. A hydrous metal oxide material treate ...


6
T Richard Jow, Jian Ping Zheng: Proton inserted ruthenium oxide electrode material for electrochemical capacitors. The United States of America represented by the Secretary of the Army, Michael Zelenka, February 23, 1999: US05875092 (14 worldwide citation)

A high energy density electrochemical capacitors with electrodes is formed from proton inserted ruthenium oxides (e.g. HRuO.sub.2.xH.sub.2 O or HRuO.sub.2). The electrode material is formed by reducing ruthenium oxides (e.g. RuO.sub.2.xH.sub.2 O or RuO.sub.2) using electrochemical method or chemical ...


7
Kang Xu, Shengping Ding, T Richard Jow: Electrochemically stable onium salts and electrolytes containing such for electrochemical capacitors. The United States of America represented by the Secretary of the Army, U John Biffoni, William V Adams, June 1, 2004: US06743947 (12 worldwide citation)

Based on the discovery that the melting point and solubility of onium salts are affected by the asymmetry of the substitution on cation, and that the branched substituents effectively shield onium cations from electrochemical reduction, new onium salts are synthesized and high performance electrolyt ...


8
Jian Ping Zheng, T Richard Jow: Method of making composite electrode materials for high energy and high power density energy storage devices. The United States of America represented by the Secretary of the Army, Michael Zelenka, John M O Meara, August 25, 1998: US05797971 (11 worldwide citation)

This invention relates to a composite electrode material for use in high rgy and high power density electrochemical capacitors, and to the electrochemical capacitor containing the electrodes. The electrodes are comprised of materials with high specific capacitance and electronic conductivity/high po ...


9
T Richard Jow, Shengshui Zhang, Kang Xu, Michael S Ding: Non-aqueous electrolyte solutions comprising additives and non-aqueous electrolyte cells comprising the same. The United States of America represented by the Secretary of the Army, William V Adams, June 14, 2005: US06905762 (10 worldwide citation)

A non-aqueous electrolyte to be used in a Li-ion battery includes a lithium salt, a cyclic carbonate, a linear carbonate and an isocyanate-based additive, with the following general formula R1—N═C═O wherein R1 represents linear or branched alkyl groups which have 1 to 7 carbon atoms, or aromatic gro ...


10
T Richard Jow, Kang Xu, Shengshui Zhang, Michael S Ding: Nonflammable non-aqueous electrolyte and non-aqueous electrolyte cells comprising the same. The United States of America represented by the Secretary of Army, William V Adams, August 2, 2005: US06924061 (9 worldwide citation)

A non-aqueous electrolyte to be used in a Li-ion battery includes a lithium salt, a cyclic carbonate, a linear carbonate and an alkyl fluorinated phosphate, of the following general formula wherein R1, R2 and R3, independently, are selected from the group consisting of straight and branched alkyl gr ...