US Battery & Fuel cells Patents - Shmuel De-Leon Energy Ltd.
US Battery & Fuel cells Patents - Shmuel De-Leon Energy Ltd.
US Battery & Fuel cells Patents - Shmuel De-Leon Energy Ltd.
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U.S. <strong>Battery</strong> & <strong>Fuel</strong> <strong>cells</strong> <strong>Patents</strong><br />
(Official Gazette for <strong>Patents</strong>, March - 2012)<br />
<strong>Shmuel</strong> <strong>De</strong>-<strong>Leon</strong> <strong>Energy</strong>, <strong>Ltd</strong>. distributes an updated list of U.S. <strong>Battery</strong> & <strong>Fuel</strong><br />
Cells <strong>Patents</strong> listed once a month.<br />
Information source: http://www.uspto.gov<br />
U.S. Patent<br />
Number<br />
Title Inventor Name Assigned Name<br />
<strong>US</strong> 8,142,917 Proton-conducting polymer Oemer Uensal, Mainz (Germany); Joachim Kiefer, Losheim<br />
BASF <strong>Fuel</strong> Cell GmbH<br />
membrane comprising Am See (Germany); Gordon Calundann, North Plainfield,<br />
polyazole blends and its use N.J. (<strong>US</strong>); Michael J. Sansone, Berkeley Heights, N.J. (<strong>US</strong>);<br />
in fuel <strong>cells</strong><br />
Brian Benicewicz, Loudonville, N.Y. (<strong>US</strong>); and Eui Wong<br />
Choe, Randolph, N.J. (<strong>US</strong>)<br />
<strong>US</strong> 8,142,918 Flexible cathodes Christopher Boczer, Shelton, Conn. (<strong>US</strong>); Frank M.<br />
<strong>De</strong>lnick, Southbury, Conn. (<strong>US</strong>); Rosario <strong>De</strong>l Rosauro,<br />
Danbury, Conn. (<strong>US</strong>); Minkoo Kang, New Milford, Conn.<br />
(<strong>US</strong>); Lucyna M. Pawlowska, Norwalk, Conn. (<strong>US</strong>);<br />
Michael Pozin, Brookfield, Conn. (<strong>US</strong>); Dharmendra Rana,<br />
Danbury, Conn. (<strong>US</strong>); Maya Stevanovic, Framingham,<br />
Mass. (<strong>US</strong>); and John J. Weckesser, Oxford, Conn. (<strong>US</strong>)<br />
The Gillette Company, Boston<br />
<strong>US</strong> 8,142,919 <strong>Battery</strong> pack apparatus with Hirokazu Kawai, Matsusaka (Japan); Takaki Kobayashi, Panasonic EV <strong>Energy</strong> Co., <strong>Ltd</strong>., Shizuoka<br />
a plurality of medium<br />
feeding parts for adjusting<br />
temperature thereof<br />
Nagoya (Japan); and Jun Okuda, Aichi-gun (Japan)<br />
(Japan)<br />
<strong>US</strong> 8,142,920 Ceramic, flexible membrane Volker Hennige, Graz (Austria); Christian Hying, Rhede EVONIK DEG<strong>US</strong>SA GmbH, Essen (Germany)<br />
providing improved<br />
adhesion to the support<br />
fleece<br />
(Germany); and Gerhard Hoerpel, Nottuln (Germany)<br />
<strong>US</strong> 8,142,921 Rechargeable battery and<br />
Tae-Yong Kim, Suwon-si (Korea, Republic of) Samsung SDI Co., <strong>Ltd</strong>., Yongin-si (Korea,<br />
battery module<br />
Republic of)<br />
<strong>US</strong> 8,142,922 Secondary battery and Kiyomi Kozuki, Osaka (Japan); Tadashi Imai, Osaka (Japan); Panasonic Corporatiokin, Osaka (Japan)<br />
method for manufacturing Yasushi Hirakawa, Osaka (Japan); and Takashi Nonoshita,<br />
secondary battery<br />
Osaka (Japan)<br />
<strong>US</strong> 8,142,923 <strong>Battery</strong> Katsuji Emura, Itami (Japan); Takashi Uemura, Itami Sumitomo Electric Industries, <strong>Ltd</strong>., Osaka-shi,<br />
<strong>Shmuel</strong> <strong>De</strong>-<strong>Leon</strong> <strong>Energy</strong>, <strong>Ltd</strong>. Mazal Arie 10, Hod- Hasharon 45309, Israel<br />
E-Mail: shmuel@sdle.co.il, Tel/Fax: 972-77-5010792, Mobile: 972-52-8601517
(Japan); Hideaki Awata, Itami (Japan); Kentaro Yoshida,<br />
Itami (Japan); Mitsuyasu Ogawa, Itami (Japan); and Rikizo<br />
Ikuta, Itami (Japan)<br />
Osaka (Japan)<br />
<strong>US</strong> 8,142,924 <strong>Battery</strong> cover mechanism Shui-Jin Dong, Shenzhen (China) Shenzhen Futaihong Precision Industry Co.,<br />
<strong>Ltd</strong>., ShenZhen, Guangdong Province (China);<br />
and FIH (Hong Kong) Limited, Kowloon (Hong<br />
Kong Special Administrative Region of the<br />
People's Republic of China, The)<br />
<strong>US</strong> 8,142,925 Expandable battery<br />
compartment for handheld<br />
electronic devices<br />
<strong>US</strong> 8,142,926 Portable computer and<br />
battery device thereof<br />
Norman M. Ladouceur, Waterloo (Canada); Jason T.<br />
Griffin, Kitchener (Canada); and Frank Tyneski, Kitchener<br />
(Canada)<br />
<strong>US</strong> 8,142,927 Lithium secondary battery Atushi Sano, Tokyo (Japan); Tsuyoshi Iijima, Tokyo (Japan);<br />
Satoshi Maruyama, Tokyo (Japan); and Kazuya Ogawa,<br />
Tokyo (Japan)<br />
<strong>US</strong> 8,142,928 SYSTEMS AND METHODS<br />
FOR RECHARGEABLE<br />
BATTERY COLLECTOR TAB<br />
CONFIGURATIONS AND FOIL<br />
THICKNESS<br />
<strong>US</strong> 8,142,929 Positive electrode for nonaqueous<br />
electrolyte battery<br />
and non-aqueous<br />
electrolyte battery<br />
<strong>US</strong> 8,142,930 NEGATIVE ELECTRODE<br />
ACTIVE MATERIAL FOR<br />
CHARGING DEVICE<br />
<strong>US</strong> 8,142,931 NONAQUEO<strong>US</strong><br />
ELECTROLYTE SECONDARY<br />
BATTERY AND METHOD OF<br />
MANUFACTURING<br />
NEGATIVE ELECTRODE<br />
THEREOF<br />
<strong>US</strong> 8,142,932 CORE-SHELL SPINEL<br />
CATHODE ACTIVE<br />
MATERIALS FOR LITHIUM<br />
SECONDARY BATTERIES,<br />
LITHIUM SECONDARY<br />
BATTERIES <strong>US</strong>ING THE<br />
SAME AND METHOD FOR<br />
PREPARING THEREOF<br />
<strong>US</strong> 8,142,933 ANODE MATERIAL FOR<br />
HIGH POWER LITHIUM ION<br />
BATTERIES<br />
<strong>US</strong> 8,142,934 POSITIVE ELECTRODE FOR<br />
NON-AQUEO<strong>US</strong><br />
ELECTROLYTIC SECONDARY<br />
CELL AND NON-AQUEO<strong>US</strong><br />
ELECTROLYTIC SECONDARY<br />
CELL<br />
Research In Motion Limited, Waterloo<br />
(Canada)<br />
Lian-Tien Ke, Taipei (Taiwan) AS<strong>US</strong>TeK Computer Inc., Taipei (Taiwan)<br />
George E. Blomgren, Lakewood, Ohio (<strong>US</strong>); On Chang, San<br />
Jose, Calif. (<strong>US</strong>); Dania Ghantous, Walnut Creek, Calif. (<strong>US</strong>);<br />
and Ou Mao, Pleasanton, Calif. (<strong>US</strong>)<br />
Nobuhiro Sakitani, Moriguchi (Japan); Naoki Imachi,<br />
Moriguchi (Japan); Atsushi Kaizuka, Moriguchi (Japan);<br />
Takeshi Niitani, Ichihara (Japan); and Masato Amaike,<br />
Ichihara (Japan)<br />
Kenji Kojima, Shinjuku-ku (Japan); Nobuo Ando, Shinjukuku<br />
(Japan); Tsutomu Fujii, Shinjuku-ku (Japan); Hiromoto<br />
Taguchi, Shinjuku-ku (Japan); Osamu Hatozaki, Shinjuku-ku<br />
(Japan); Yukinori Hato, Shinjuku-ku (Japan); and Chisato<br />
Marumo, Shinjuku-ku (Japan)<br />
Toshitada Sato, Osaka (Japan); Daisuke Suetsugu, Osaka<br />
(Japan); Katsumi Kashiwagi, Nara (Japan); and Kazuyoshi<br />
Honda, Osaka (Japan)<br />
Yang Kook Sun, Seoul (Korea, Republic of); and Ki Soo Lee,<br />
Seoul (Korea, Republic of)<br />
Zhenhua Mao, Ponca City, Okla. (<strong>US</strong>); and Bharat S.<br />
Chahar, Houston, Tex. (<strong>US</strong>)<br />
Shigeto Okada, Fukuoka (Japan); Jun-Ichi Yamaki, Kasugai<br />
(Japan); Tomoko Iwanaga, Fukuoka (Japan); Michio<br />
Takahashi, Nagoya (Japan); and Hiroyuki Katsukawa, Niwa-<br />
Gun (Japan)<br />
TDK Corporation, Tokyo (Japan)<br />
BASVAH LLC, Woodside, Calif. (<strong>US</strong>)<br />
Sanyo Electric Co., <strong>Ltd</strong>., Osaka (Japan); and<br />
Nippon Soda Co., <strong>Ltd</strong>., Tokyo (Japan)<br />
Fuji Jukogyo Kabushiki Kaisha, Tokyo (Japan)<br />
Panasonic Corporation, Osaka (Japan)<br />
SK Innovation Co., <strong>Ltd</strong>., Seoul (Korea,<br />
Republic of)<br />
ConocoPhillips Company, Houston, Tex. (<strong>US</strong>)<br />
Kyushu University, Fukuoka (Japan); and<br />
NGK Insulators, <strong>Ltd</strong>., Nagoya (Japan)<br />
<strong>Shmuel</strong> <strong>De</strong>-<strong>Leon</strong> <strong>Energy</strong>, <strong>Ltd</strong>. Mazal Arie 10, Hod- Hasharon 45309, Israel<br />
E-Mail: shmuel@sdle.co.il, Tel/Fax: 972-77-5010792, Mobile: 972-52-8601517
<strong>US</strong> RE43,276<br />
POSITIVE ACTIVE MATERIAL<br />
FOR RECHARGEABLE<br />
LITHIUM BATTERY AND<br />
METHOD OF PREPARING<br />
SAME<br />
<strong>US</strong> 8,142,935 APPARAT<strong>US</strong> FOR<br />
PRODUCING A BATTERY<br />
PLATE EXPANDED GRID<br />
<strong>US</strong> 8,142,936 NON-AQUEO<strong>US</strong><br />
ELECTROLYTE AND LITHIUM<br />
SECONDARY BATTERY<br />
<strong>US</strong>ING THE<br />
Ho-Jin Kweon, Yongin-si (Korea, Republic of); Hyun-Sook<br />
Jung, Yongin-si (Korea, Republic of); Yong-Chul Park,<br />
Yongin-si (Korea, Republic of); and Geun-Bae Kim, Yonginsi<br />
(Korea, Republic of)<br />
Yoshiomi Fujiwara, Kyoto (Japan); Hiroyuki Tanaka, Kyoto<br />
(Japan); and Tadashi Nishida, Kyoto (Japan)<br />
Soon Ho Ahn, Daejeon (Korea, Republic of); Jae Hyun Lee,<br />
Daejeon (Korea, Republic of); Jeong Ju Cho, Daejeon<br />
(Korea, Republic of); Ho Chun Lee, Daejeon (Korea,<br />
Republic of); Mi Young Son, Seoul (Korea, Republic of);<br />
Hyeong Jin Kim, Daejeon (Korea, Republic of); and Han Ho<br />
Lee, Daejeon (Korea, Republic of)<br />
Samsung SDI Co., <strong>Ltd</strong>., Yongin-si (Korea,<br />
Republic of)<br />
GS Yuasa International <strong>Ltd</strong>., Kyoto (Japan)<br />
LG Chem, <strong>Ltd</strong>., (Korea, Republic of)<br />
<strong>US</strong> 8,142,937 FUEL CELL SYSTEM Kazuyoshi Furukawa, Shizuoka (Japan) Yamaha Hatsudoki Kabushiki Kaisha,<br />
Shizuoka (Japan)<br />
<strong>US</strong> 8,142,938 PORO<strong>US</strong> CL<strong>US</strong>TERS OF Ernst Khasin, Rehovot (Israel); and Arie Zaban, Shoham Bar Ilan University, Ramat Gan (Israel)<br />
SILVER POWDER<br />
PROMOTED BY ZIRCONIUM<br />
OXIDE FOR <strong>US</strong>E AS A<br />
CATALYST IN GAS<br />
DIFF<strong>US</strong>ION ELECTRODES,<br />
AND METHOD FOR THE<br />
PRODUCTION THEREOF<br />
(Israel)<br />
<strong>US</strong> 8,142,939 FUEL CELL SYSTEM AND<br />
Yasuhiro Nonobe, Aichi-ken (Japan) Toyota Jidosha Kabushiki Kaisha, Toyota-shi,<br />
METHOD FOR<br />
CONTROLLING FUEL CELL<br />
SYSTEM<br />
Aichi-ken (Japan)<br />
<strong>US</strong> 8,142,940 FUEL CELL WITH FLAT<br />
Jean-Philippe Poirot-Crouvezier, Saint-Georges de Commissariat a l'Energie Atomique, Paris<br />
ASSEMBLY AND SIMPLIFIED Commiers (France); Philippe Manicardi, Fontaine (France);<br />
(France)<br />
SEALING<br />
Audrey Montaut, Grenoble (France); and Jean Oriol,<br />
Grenoble (France)<br />
<strong>US</strong> 8,142,941 POWER SUPPLY SYSTEM<br />
AND CONTROL METHOD<br />
THEREOF<br />
Hiroyasu Bitoh, Ome (Japan) Casio Computer Co., <strong>Ltd</strong>., Tokyo (Japan)<br />
<strong>US</strong> 8,142,942 VAPORIZER AND POWER<br />
GENERATION APPARAT<strong>US</strong><br />
AND ELECTRONIC<br />
EQUIPMENT IN WHICH<br />
VAPORIZER IS PROVIDED<br />
Daisuke Imanaka, Akiruno (Japan) Casio Computer Co., <strong>Ltd</strong>., Tokyo (Japan)<br />
<strong>US</strong> 8,142,943 SOLID OXIDE FUEL CELL James F. McElroy, Suffield, Conn. (<strong>US</strong>); and Matthias Bloom <strong>Energy</strong> Corporation, Sunnyvale, Calif.<br />
COLUMN TEMPERATURE<br />
EQUALIZATION BY<br />
INTERNAL REFORMING AND<br />
FUEL CASCADING<br />
Gottmann, Sunnyvale, Calif. (<strong>US</strong>)<br />
(<strong>US</strong>)<br />
<strong>US</strong> 8,142,944 MICRO FUEL CELL AND Giuseppe Emanuele Spoto, S. G. La Punta (Italy); Cristian STMicroelectronics S.R.L., Agrate Brianza<br />
CORRESPONDING Dall'oglio, Niscemi (Italy); Giuseppe Antonio Maria Nastasi,<br />
(MI) (Italy)<br />
MICROREACTOR, SUPPLIED Tremestieri Etneo (Italy); Salvatore Abbisso, Augusta<br />
WITH HYDROGEN, FOR (Italy); Roberta Zito, Modugno (Italy); Andrea Lazzara,<br />
PRODUCING ELECTRIC Pedara (Italy); Salvatore <strong>Leon</strong>ardi, Aci S. Antonio (Italy);<br />
and Roberta Giuffrida, Catania (Italy)<br />
<strong>US</strong> 8,142,945 METHOD FOR<br />
CONTROLLING PERIPHERAL<br />
SYSTEM AND FUEL CELL<br />
SYSTEM <strong>US</strong>ING THE SAME<br />
Jin Hong An, Yongin (Korea, Republic of); Hyun Kim,<br />
Yongin (Korea, Republic of); Ri A Ju, Yongin (Korea,<br />
Republic of); and Dong Rak Kim, Yongin (Korea,<br />
Republic of)<br />
Samsung SDI Co., <strong>Ltd</strong>., Yongin-si (Korea,<br />
Republic of)<br />
<strong>Shmuel</strong> <strong>De</strong>-<strong>Leon</strong> <strong>Energy</strong>, <strong>Ltd</strong>. Mazal Arie 10, Hod- Hasharon 45309, Israel<br />
E-Mail: shmuel@sdle.co.il, Tel/Fax: 972-77-5010792, Mobile: 972-52-8601517
<strong>US</strong> 8,142,946 FUEL CELL SYSTEM Katsuki Ishigaki, Handa (Japan); Hironori Noto, Tokai<br />
(Japan); Takashi Yamamoto, Okazaki (Japan); and<br />
Masataka Ota, Anjo (Japan)<br />
<strong>US</strong> 8,142,947 START-UP METHOD FOR<br />
FUEL CELL<br />
<strong>US</strong> 8,142,948 FUEL CELL BASED POWER<br />
GENERATOR<br />
<strong>US</strong> 8,142,949 METHOD OF<br />
MANUFACTURING FUEL<br />
CELL BASED POWER<br />
GENERATOR<br />
<strong>US</strong> 8,142,950 HYDROGEN PASSIVATION<br />
SHUT DOWN SYSTEM FOR A<br />
FUEL CELL POWER PLANT<br />
<strong>US</strong> 8,142,951 MONOPOLAR FUEL CELL<br />
ENDPLATE AND FUEL CELL<br />
COMPRISING SAME<br />
Toyota Jidosha Kabushiki Kaisha, Toyota-shi<br />
(Japan)<br />
Masanori Hayashi, Utsunomiya (Japan); Kenichiro Ueda, Honda Motor Co., <strong>Ltd</strong>., Tokyo (Japan)<br />
Utsunomiya (Japan); Yoshio Hosono, Utsunomiya (Japan);<br />
Minoru Uoshima, Utsunomiya (Japan); Junji Uehara,<br />
Utsunomiya (Japan); Tomoki Kobayashi, Utsunomiya<br />
(Japan); Yuji Matsumoto, Shioya-gun (Japan); and Chihiro<br />
Wake, Shioya-gun (Japan)<br />
Steven J. Eickhoff, Plymouth, Minn. (<strong>US</strong>) Honeywell International Inc., Morristown,<br />
N.J. (<strong>US</strong>)<br />
Steven J. Eickhoff, Plymouth, Minn. (<strong>US</strong>) Honeywell International Inc., Morristown,<br />
N.J. (<strong>US</strong>)<br />
Carl A. Reiser, Stonington, Conn. (<strong>US</strong>); Venkateshwarlu<br />
Yadha, Richardson, Tex. (<strong>US</strong>); and Matthew P. Wilson,<br />
Groton, Conn. (<strong>US</strong>)<br />
Francis Roy, Les Ulis (France); and Jean-Philippe Poirot-<br />
Crouvezier, Saint Georges de Commiers (France)<br />
<strong>US</strong> 8,142,952 FUEL CELL BATTERY SYSTEM Tomohiro Ogawa, Susono (Japan); and Kazunori Shibata,<br />
Susono (Japan)<br />
<strong>US</strong> 8,142,953 HYDROPHILIC ADJUVANT Dong Pyo Kim, Daejeon (Korea, Republic of); Lan Young<br />
Hong, Daejeon (Korea, Republic of); Jung Hye Won, Seoul<br />
(Korea, Republic of); Yong Su Park, Daejeon (Korea,<br />
Republic of); and Chong Kyu Shin, Daejeon (Korea,<br />
Republic of)<br />
<strong>US</strong> 8,142,954 FUEL COMPOSITION FOR Seol-ah Lee, Yongin-si (Korea, Republic of); Hyuk Chang,<br />
FUEL CELL AND FUEL CELL Seongnam-si (Korea, Republic of); Chan-ho Pak, Seoul<br />
<strong>US</strong>ING THE SAME (Korea, Republic of); and Dae-jong Yoo, Yongin-si (Korea,<br />
Republic of)<br />
<strong>US</strong> 8,142,955 FUEL CELL SYSTEM, FUEL<br />
CELL VEHICLE, AND<br />
OPERATING METHOD FOR<br />
FUEL CELL SYSTEM<br />
UTC Power Corporation, South Windsor,<br />
Conn. (<strong>US</strong>)<br />
Peugeot Citroen Automobiles SA, Valizy<br />
Villacoublay (France); and Commissariat a<br />
l'Energie Atomique et aux Energies<br />
Alternatives, Paris (France)<br />
Toyota Jidosha Kabushiki Kaisha, Toyota-shi,<br />
Aichi-ken (Japan)<br />
LG Chem, <strong>Ltd</strong>., Seoul (Korea, Republic of)<br />
Samsung SDI Co., <strong>Ltd</strong>., Yongin-si (Korea,<br />
Republic of)<br />
Masashi Ito, Yokosuka (Japan) Nissan Motor Co., <strong>Ltd</strong>., Kanagawa-Ken<br />
(Japan)<br />
<strong>US</strong> 8,142,956 FUEL CELL Megumu Nagasawa, Osaka (Japan); and Masao Abe, Osaka<br />
(Japan)<br />
<strong>US</strong> 8,142,957 METHOD FOR PREPARING A Riqing Zhang, Shenzhen (China); and Junqing Dong,<br />
MEMBRANE ELECTRODE OF<br />
A FUEL CELL<br />
Shenzhen (China)<br />
<strong>US</strong> 8,137,827 VISUALIZATION APPARAT<strong>US</strong> Joongmyeon Bae, Daejeon (Korea, Republic of); and Dong-<br />
FOR TRANSPARENT PEMFC<br />
ryul Lee, Hwaseong-si (Korea, Republic of)<br />
<strong>US</strong> 8,137,828 DURABLE FUEL CELL<br />
MEMBRANE ELECTRODE<br />
ASSEMBLY WITH<br />
COMBINED ADDITIVES<br />
<strong>US</strong> 8,137,829 METHOD OF PRESERVING<br />
POLYMER ELECTROLYTE<br />
FUEL CELL STACK AND<br />
PRESERVATION ASSEMBLY<br />
OF POLYMER ELECTROLYTE<br />
FUEL CELL STACK<br />
Daniel M. Pierpont, North Saint Paul, Minn. (<strong>US</strong>); Steven J.<br />
Hamrock, Stillwater, Minn. (<strong>US</strong>); and Matthew H. Frey,<br />
Cottage Grove, Minn. (<strong>US</strong>)<br />
Shinichi Arisaka, Osaka (Japan); Yoichiro Tsuji, Osaka<br />
(Japan); Eiichi Yasumoto, Kyoto (Japan); Kazuhito Hatoh,<br />
Osaka (Japan); and Shinsuke Takeguchi, Osaka (Japan)<br />
Nitto <strong>De</strong>nko Corporation, Osaka (Japan)<br />
BYD Company <strong>Ltd</strong>, Shenzhen (China)<br />
Korea Advanced Institute of Science and<br />
Technology, Daejeon (Korea, Republic of)<br />
3M Innovative Properties Company, St. Paul,<br />
Minn. (<strong>US</strong>)<br />
Panasonic Corporation, Osaka (Japan)<br />
<strong>Shmuel</strong> <strong>De</strong>-<strong>Leon</strong> <strong>Energy</strong>, <strong>Ltd</strong>. Mazal Arie 10, Hod- Hasharon 45309, Israel<br />
E-Mail: shmuel@sdle.co.il, Tel/Fax: 972-77-5010792, Mobile: 972-52-8601517
<strong>US</strong> 8,137,830 HIGH VOLTAGE BATTERY<br />
COMPOSED OF ANODE<br />
LIMITED ELECTROCHEMICAL<br />
CELLS<br />
<strong>US</strong> 8,137,831 <strong>US</strong> 8,137,831 Gerardo Jose la O', Alameda, Calif. (<strong>US</strong>); Rick Winter,<br />
Orinda, Calif. (<strong>US</strong>); Jonathan L. Hall, San Mateo, Calif. (<strong>US</strong>);<br />
and Pallavi Pharkya, Fremont, Calif. (<strong>US</strong>)<br />
<strong>US</strong> 8,137,832 SPIRALLY WOUND NON-<br />
AQUEO<strong>US</strong> ELECTROLYTE<br />
SECONDARY BATTERY<br />
HAVING INSULATING<br />
MEMBERS<br />
<strong>US</strong> 8,137,833 CONDENSATION-INDUCED<br />
CORROSION RESISTANT<br />
CELL MOUNTING WELL<br />
Weston Arthur Hermann, Palo Alto, Calif. (<strong>US</strong>)<br />
<strong>US</strong> 8,137,834 PROPULSION CELL FOR A<br />
DEVICE IN AN AQUATIC<br />
MEDIUM<br />
<strong>US</strong> 8,137,835 PLATED STEEL PLATE FOR<br />
CELL CAN, BATTERY,<br />
ALKALINE DRY BATTERY<br />
<strong>US</strong> 8,137,836 LITHIUM RECHARGEABLE<br />
BATTERY WITH RESIN<br />
MOLDING PART AND OUTER<br />
COVERS<br />
<strong>US</strong> 8,137,837 SECONDARY BATTERY PACK<br />
HAVING EXCELLENT<br />
PRODUCTION PROCESS<br />
PROPERTY AND<br />
STRUCTURAL STABILITY<br />
<strong>US</strong> 8,137,838 BATTERY ELECTRODE PASTE<br />
COMPOSITION CONTAINING<br />
MODIFIED MALEIMIDES<br />
<strong>US</strong> 8,137,839 ALLOY POWDER FOR<br />
ELECTRODE AND METHOD<br />
FOR PRODUCING SAME<br />
<strong>US</strong> 8,137,840 NONAQUEO<strong>US</strong> SECONDARY<br />
BATTERY AND METHOD OF<br />
<strong>US</strong>ING THE SAME<br />
<strong>US</strong> 8,137,841 CATHODE COMPOSITIONS<br />
FOR LITHIUM-ION<br />
ELECTROCHEMICAL CELLS<br />
Jay Whitacre, Pittsburgh, Pa. (<strong>US</strong>) Aquion <strong>Energy</strong>, Inc., Pittsburgh, Pa. (<strong>US</strong>)<br />
Primus Power Corporation, Hayward, Calif.<br />
(<strong>US</strong>)<br />
Masaki Machida, Fukushima (Japan) Sony Corporation, Tokyo (Japan)<br />
Didier Vivien, Cogolin (France); and Jean-Pierre Carmillet,<br />
Ste Maxime (France)<br />
Yuji Tsuchida, Shizuoka (Japan); Shigeyuki Kuniya, Shizuoka<br />
(Japan); and Tatsuya Yamazaki, Shizuoka (Japan)<br />
Nohyun Kwag, Yongin-si (Korea, Republic of); Kyungwon<br />
Seo, Yongin-si (Korea, Republic of); and Sangjoo Lee,<br />
Yongin-si (Korea, Republic of)<br />
Soonkwang Jung, Seoul (Korea, Republic of); and Sukjin<br />
Song, Yongin-si (Korea, Republic of)<br />
Chang-Rung Yang, Hsinchu (Taiwan); Jing-Pin Pan, Hsinchu<br />
(Taiwan); Chien-An Chen, Hsinchu (Taiwan); and Jung-Mu<br />
Hsu, Hsinchu (Taiwan)<br />
Hideaki Ohyama, Osaka (Japan); Kyoko Nakatsuji, Osaka<br />
(Japan); Yoshitaka Dansui, Osaka (Japan); Shinichi Orimo,<br />
Miyagi (Japan); Yuko Nakamori, Miyagi (Japan); Hai-Wen<br />
Li, Miyagi (Japan); and Kazutaka Ikeda, Miyagi (Japan)<br />
Fusaji Kita, Ibaraki (Japan); Hideki Tsubata, Ibaraki (Japan);<br />
and Hiroyasu Inoue, Ibaraki (Japan)<br />
Jeffrey R. Dahn, Upper Tantallon (Canada); and Peng Liao,<br />
Halifax (Canada)<br />
<strong>US</strong> 8,137,842 BATTERY CATHODES Todd E. Bofinger, Nashua, N.H. (<strong>US</strong>); William L. Bowden,<br />
Nashua, N.H. (<strong>US</strong>); George Cintra, Holliston, Mass. (<strong>US</strong>);<br />
Kirakodu S. Nanjundaswamy, Sharon, Mass. (<strong>US</strong>); Rimma<br />
A. Sirotina, Ashland, Mass. (<strong>US</strong>); Dana Alexa Totir,<br />
Danbury, Conn. (<strong>US</strong>); and Fan Zhang, Needham, Mass. (<strong>US</strong>)<br />
<strong>US</strong> 8,137,843 NEGATIVE ELECTRODE<br />
ACTIVE MATERIAL FOR<br />
NONAQUEO<strong>US</strong><br />
ELECTROLYTE BATTERY,<br />
NONAQUEO<strong>US</strong><br />
ELECTROLYTE BATTERY,<br />
BATTERY PACK, AND<br />
VEHICLE<br />
Yasuhiro Harada, Yokohama (Japan); Norio Takami,<br />
Yokohama (Japan); Hiroki Inagaki, Kawasaki (Japan); and<br />
Tomokazu Morita, Funabashi (Japan)<br />
Tesla Motors, Inc., Palo Alto, Calif. (<strong>US</strong>)<br />
DCN, Paris (France)<br />
FDK <strong>Energy</strong> Co., <strong>Ltd</strong>., Shizuoka (Japan)<br />
Samsung SDI Co., <strong>Ltd</strong>., Gongse-dong,<br />
Giheung-gu, Yongin-si, Gyeonggi-do (Korea,<br />
Republic of)<br />
LG Chem, <strong>Ltd</strong>., Seoul (Korea, Republic of)<br />
Industrial Technology Research Institute,<br />
Hsinchu Hsien (Taiwan)<br />
Panasonic Corporation, Osaka (Japan)<br />
Hitachi Maxell <strong>Energy</strong>, <strong>Ltd</strong>., Otokuni-Gun,<br />
Kyoto (Japan)<br />
3M Innovative Properties Company, St. Paul,<br />
Minn. (<strong>US</strong>)<br />
The Gillette Company, Boston, Mass. (<strong>US</strong>)<br />
Kabushiki Kaisha Toshiba, Tokyo (Japan)<br />
<strong>US</strong> 8,137,844 CATHODE ACTIVE MATERIAL Hidekazu Awano, Tokyo (Japan); Minoru Fukuchi, Tokyo Nippon Chemical Industrial Co., <strong>Ltd</strong>., Tokyo<br />
<strong>Shmuel</strong> <strong>De</strong>-<strong>Leon</strong> <strong>Energy</strong>, <strong>Ltd</strong>. Mazal Arie 10, Hod- Hasharon 45309, Israel<br />
E-Mail: shmuel@sdle.co.il, Tel/Fax: 972-77-5010792, Mobile: 972-52-8601517
FOR LITHIUM<br />
RECHARGEABLE BATTERY,<br />
MANUFACTURING METHOD<br />
THEREOF AND LITHIUM<br />
RECHARGEABLE BATTERY<br />
<strong>US</strong> 8,137,845 NEGATIVE ACTIVE<br />
MATERIAL FOR<br />
RECHARGEABLE LITHIUM<br />
BATTERY, METHOD OF<br />
PREPARING THE SAME, AND<br />
RECHARGEABLE LITHIUM<br />
BATTERY INCLUDING THE<br />
SAME<br />
<strong>US</strong> 8,137,846 NONAQUEO<strong>US</strong>-<br />
ELECTROLYTE SECONDARY<br />
BATTERY<br />
<strong>US</strong> 8,137,847 ACTIVE MATERIAL FOR<br />
NON-AQUEO<strong>US</strong><br />
ELECTROLYTE SECONDARY<br />
BATTERY AND<br />
MANUFACTURING METHOD<br />
THEREFORE<br />
<strong>US</strong> 8,137,848 METHOD FOR PRODUCING<br />
DIFLUOROPHOSPHATE,<br />
NONAQUEO<strong>US</strong><br />
ELECTROLYTE SOLUTION<br />
FOR SECONDARY<br />
BATTERIES, AND<br />
NONAQUEO<strong>US</strong><br />
ELECTROLYTE SECONDARY<br />
BATTERY<br />
<strong>US</strong> 8,137,849 PHOSPHATE-BASED<br />
ACRYLATE CROSSLINKING<br />
AGENT FOR POLYMER<br />
ELECTROLYTE AND A<br />
COMPOSITION CONTAINING<br />
THE SAME<br />
<strong>US</strong> 8,137,850 GAS-LIQUID SEPARATOR<br />
AND FUEL CELL SYSTEM<br />
HAVING THE SAME<br />
<strong>US</strong> 8,137,851 FUEL CELL AND FUEL CELL<br />
MODULE<br />
(Japan); and Yuuki Anbe, Tokyo (Japan)<br />
Yang-Soo Kim, Suwon-si (Korea, Republic of); Wan-Uk<br />
Choi, Suwon-si (Korea, Republic of); Ri-Zhu Yin, Suwon-si<br />
(Korea, Republic of); Joon-Sup Kim, Suwon-si (Korea,<br />
Republic of); and Sung-Soo Kim, Suwon-si (Korea, Republic<br />
of)<br />
Satoshi Nakashima, Ibaraki (Japan); Yasushi Usami, Shiga<br />
(Japan); Akihiko Sakai, Shiga (Japan); Manabu Hayashi,<br />
Tokyo (Japan); and Ryoichi Kato, Ibaraki (Japan)<br />
Tsutomu Ohzuku, Nara (Japan); Hiroshi Yoshizawa, Osaka<br />
(Japan); and Kensuke Nakura, Osaka (Japan)<br />
Ryoichi Kato, Inashiki-gun (Japan); and Hitoshi Suzuki,<br />
Inashiki-gun (Japan)<br />
Yongku Kang, Daejeon (Korea, Republic of); Changjin Lee,<br />
Daejeon (Korea, Republic of); Jun Kyoung Lee, Daejeon<br />
(Korea, Republic of); and Joung In Lee, Chungcheongnamdo<br />
(Korea, Republic of)<br />
Ji-Seong Han, Yongin-si (Korea, Republic of); and Sung-Jin<br />
Kim, Yongin-si (Korea, Republic of)<br />
<strong>US</strong> 8,137,852 LIQUID ELECTROLYTE Tetsuji Hirano, Ube (Japan); Nobuharu Hisano, Ube<br />
(Japan); and Masayuki Kinouchi, Ube (Japan)<br />
<strong>US</strong> 8,137,853 MEMBRANE HUMIDIFIER<br />
FOR A FUEL CELL<br />
Yan Zhang, Victor, N.Y. (<strong>US</strong>); Annette M. Brenner,<br />
Honeoye Falls, N.Y. (<strong>US</strong>); Hubert A. Gasteiger,<br />
Rochester, N.Y. (<strong>US</strong>); Steven G. Goebel, Victor, N.Y.<br />
(<strong>US</strong>); and Glenn W. Skala, Churchville, N.Y. (<strong>US</strong>)<br />
<strong>US</strong> 8,137,854 FUEL CELL SYSTEM AS A<br />
PRIMARY ELECTRICAL<br />
ENERGY SUPPLY FOR<br />
AIRCRAFT<br />
<strong>US</strong> 8,137,855 HOT BOX DESIGN WITH A<br />
MULTI-STREAM HEAT<br />
EXCHANGER AND SINGLE<br />
AIR CONTROL<br />
(Japan)<br />
Samsung SDI Co., <strong>Ltd</strong>., Giheung-gu, Yonginsi,<br />
Gyeonggi-do (Korea, Republic of)<br />
Mitsubishi Chemical Corporation, Tokyo<br />
(Japan); and Mitsubishi Plastics, Inc., Tokyo<br />
(Japan)<br />
Panasonic Corporation, Osaka (Japan); and<br />
Public University Corporation Osaka City<br />
University, Osaka (Japan)<br />
Mitsubishi Chemical Corporation, Tokyo<br />
(Japan)<br />
Korea Research Institute of Chemical<br />
Technology, Daejeon (Korea, Republic of)<br />
Samsung SDI Co., <strong>Ltd</strong>., Giheung-gu, Yonginsi,<br />
Gyeonggi-do (Korea, Republic of)<br />
Yukihisa Kanao, Asaka (Japan) Honda Motor Co., <strong>Ltd</strong>., Tokyo (Japan)<br />
Hubert Gans, Pujaudran (France)<br />
David Weingaertner, Sunnyvale, Calif. (<strong>US</strong>); and<br />
Swaminathan Venkataraman, Cupertino, Calif. (<strong>US</strong>)<br />
Ube Industries, <strong>Ltd</strong>., Yamaguchi (Japan)<br />
GM Global Technology Operations LLC,<br />
<strong>De</strong>troit, Mich. (<strong>US</strong>)<br />
Airbus Operations GmbH, (Germany)<br />
Bloom <strong>Energy</strong> Corporation, Sunnyvale, Calif.<br />
(<strong>US</strong>)<br />
<strong>US</strong> 8,137,856 FUEL CELL Kenji Yamaga, Hitachi (Japan); Tsutomu Okusawa, Hitachi<br />
(Japan); and Masaya Kozakai, Hitachi (Japan)<br />
Hitachi, <strong>Ltd</strong>., Tokyo (Japan)<br />
<strong>US</strong> 8,137,857 LIQUID ELECTROLYTE FUEL Richard D. Breault, North Kingstown, R.I. (<strong>US</strong>) UTC Power Corporation, South Windsor,<br />
<strong>Shmuel</strong> <strong>De</strong>-<strong>Leon</strong> <strong>Energy</strong>, <strong>Ltd</strong>. Mazal Arie 10, Hod- Hasharon 45309, Israel<br />
E-Mail: shmuel@sdle.co.il, Tel/Fax: 972-77-5010792, Mobile: 972-52-8601517
CELL HAVING AN ANODE<br />
SUBSTRATE LAYER THICKER<br />
THAN THE CATHODE<br />
SUBSTRATE LAYER<br />
<strong>US</strong> 8,137,858 METHOD OF FABRICATING<br />
ELECTRODE CATALYST<br />
LAYERS WITH<br />
DIRECTIONALLY ORIENTED<br />
CARBON SUPPORT FOR<br />
PROTON EXCHANGE<br />
MEMBRANE FUEL CELL<br />
<strong>US</strong> 8,137,859 MEMBRANE-ELECTRODE<br />
ASSEMBLY FOR FUEL CELL,<br />
METHOD FOR<br />
MANUFACTURING THE<br />
SAME, AND FUEL CELL<br />
SYSTEM INCLUDING THE<br />
SAME<br />
<strong>US</strong> 8,137,860 POLYMER ELECTROLYTE<br />
MEMBRANE FOR SOLID<br />
POLYMER FUEL CELL,<br />
MEMBRANE-ELECTRODE<br />
ASSEMBLY AND FUEL CELL<br />
<strong>US</strong> 8,137,861 DIAPHRAGM FOR DIRECT-<br />
LIQUID FUEL CELL AND<br />
PROCESS FOR PRODUCING<br />
THE SAME<br />
Di-Jia Liu, Naperville, Ill. (<strong>US</strong>); and Junbing Yang,<br />
Bolingbrook, Ill. (<strong>US</strong>)<br />
Chan-Gyun Shin, Yongin-si (Korea, Republic of); Sang-Il<br />
Han, Yongin-si (Korea, Republic of); and In-Hyuk Son,<br />
Yongin-si (Korea, Republic of)<br />
Takashi Yamashita, Tsukuba (Japan); Shinji Nakai, Tsukuba<br />
(Japan); Hiroyuki Ogi, Tsukuba (Japan); and Tomohiro Ono,<br />
Tsukuba (Japan)<br />
Kenji Fukuta, Shunan (Japan); Hiroshi Inoue, Shunan<br />
(Japan); and Takenori Isomura, Shunan (Japan)<br />
<strong>US</strong> 8,137,862 FUEL CELL Yasuhiro Izawa, Mishima (Japan); Satoshi Aoyama, Susono<br />
(Japan); and Maiko Ikuno, Susono (Japan)<br />
<strong>US</strong> 8,137,863 FUEL CELL Shinsuke Takeguchi, Osaka (Japan); Kazuhito Hatoh, Osaka<br />
(Japan); Hiroki Kusakabe, Osaka (Japan); and Toshihiro<br />
Matsumoto, Osaka (Japan)<br />
<strong>US</strong> 8,137,864 FUEL CELL FORMED WITH<br />
METAL SEPARATORS<br />
<strong>US</strong> 8,137,865 PLATE MEMBER FOR FUEL<br />
CELL, MANUFACTURING<br />
METHOD OF THE PLATE<br />
MEMBER, AND FUEL CELL<br />
<strong>US</strong> 8,137,866 TITANIUM MATERIAL FOR<br />
FUEL CELL SEPARATOR<br />
HAVING LOW CONTACT<br />
RESISTANCE<br />
Conn. (<strong>US</strong>)<br />
UChicago Argonne, LLC, Chicago, Ill. (<strong>US</strong>)<br />
Samsung SDI Co., <strong>Ltd</strong>., Yongin-si (Korea,<br />
Republic of)<br />
Kuraray Co., <strong>Ltd</strong>., Kurashiki-shi (Japan)<br />
Tokuyama Corporation, Shunan-Shi (Japan)<br />
Toyota Jidosha Kabushiki Kaisha, Toyota-shi<br />
(Japan)<br />
Panasonic Corporation, Osaka (Japan)<br />
Eri Ishikawa, Utsunomiya (Japan); Seiji Sugiura,<br />
Honda Motor Co., <strong>Ltd</strong>., Tokyo (Japan)<br />
Utsunomiya (Japan); Mikihiko Kimura, Gyoda (Japan); and<br />
Akihiro Nonogaki, Sakura (Japan)<br />
Kazutaka Iizuka, Nisshin (Japan) Toyota Jidosha Kabshiki Kaisha, Toyota-shi<br />
(Japan)<br />
Jun Suzuki, Kobe (Japan); Toshiki Sato, Kobe<br />
(Japan); Kasumi Yanagisawa, Kobe (Japan); Takashi<br />
Yashiki, Osaka (Japan); and Masahito Fukuda,<br />
Shinagawa-ku (Japan)<br />
Assigned to Kobe Steel, <strong>Ltd</strong>., Kobe-shi (Japan)<br />
Kobe Steel, <strong>Ltd</strong>., Kobe-shi (Japan)<br />
<strong>US</strong> 8,133,602 RECHARGEABLE BATTERY Tae-Yong Kim, Suwon-si (Korea, Republic of) Samsung SDI Co., <strong>Ltd</strong>., (Korea, Republic of)<br />
<strong>US</strong> RE43,241 ELECTRODE ASSEMBLY FOR<br />
SECONDARY BATTERY AND<br />
METHOD FOR FABRICATING<br />
THE SAME<br />
<strong>US</strong> 8,133,603 BATTERY AND CASE OF<br />
BATTERY PACK<br />
<strong>US</strong> 8,133,604 ELECTROCHEMICAL DEVICE<br />
ASSEMBLY HAVING<br />
ELECTRODE TABS<br />
CONNECTED TO A CLAD<br />
SPACER<br />
Chang-Seob Kim, Chonan-shi (Korea, Republic of) Samsung SDI Co., <strong>Ltd</strong>., Gongse-dong,<br />
Giheung-gu, Yongin-si, Gyeonggi-do (Korea,<br />
Republic of)<br />
<strong>De</strong>ayon Moon, Yongin-si (Korea, Republic of) Samsung SDI Co., <strong>Ltd</strong>., Gongse-dong,<br />
Giheung-gu, Yongin-si, Gyeonggi-do (Korea,<br />
Republic of)<br />
Hiroshi Nakahara, Santa Clarita, Calif. (<strong>US</strong>); and Sang<br />
Young Yoon, Saugus, Calif. (<strong>US</strong>)<br />
<strong>US</strong> 8,133,605 METHOD OF Takashi Murata, Toyota (Japan) Toyota Jidosha Kabushiki Kaisha, Toyota-shi<br />
<strong>Shmuel</strong> <strong>De</strong>-<strong>Leon</strong> <strong>Energy</strong>, <strong>Ltd</strong>. Mazal Arie 10, Hod- Hasharon 45309, Israel<br />
E-Mail: shmuel@sdle.co.il, Tel/Fax: 972-77-5010792, Mobile: 972-52-8601517
MANUFACTURING POWER<br />
STORAGE DEVICE<br />
<strong>US</strong> 8,133,606 BATTERY EMPLOYING AN<br />
ELECTRODE PELLET HAVING<br />
AN INNER ELECTRODE<br />
EMBEDDED THEREIN<br />
<strong>US</strong> 8,133,607 PARALLEL CONNECTION<br />
ASSEMBLY OF BATTERIES<br />
AND BATTERY SET HAVING<br />
THE SAME<br />
<strong>US</strong> 8,133,608 BATTERY PACK WITH CELL-<br />
LEVEL F<strong>US</strong>ING<br />
<strong>US</strong> 8,133,609 REINFORCED POUCH TYPE<br />
SECONDARY BATTERY<br />
Brendan Coffey, Austin, Tex. (<strong>US</strong>); and Charles Sesock,<br />
College Station, Tex. (<strong>US</strong>)<br />
Chin-Ming Chen, Gueishan Township, Taoyuan County<br />
(Taiwan); and Shen-Fa Hsu, Gueishan Township, Taoyuan<br />
County (Taiwan)<br />
Weston Arthur Hermann, Palo Alto, Calif. (<strong>US</strong>); Scott Ira<br />
Kohn, Redwood City, Calif. (<strong>US</strong>); Paul Bryan Kreiner, Los<br />
Altos Hills, Calif. (<strong>US</strong>); and Christopher David Gadda,<br />
Sunnyvale, Calif. (<strong>US</strong>)<br />
Sang-Bum Kim, Cheonan (Korea, Republic of); Chang-Ho<br />
Kim, Suwon (Korea, Republic of); Youn-Han Chang, Osan<br />
(Korea, Republic of); and Won-Chull Han, Cheonan (Korea,<br />
Republic of)<br />
(Japan)<br />
Rechargeable <strong>Battery</strong> Corporation, College<br />
Station, Tex. (<strong>US</strong>)<br />
Amita Technologies Inc <strong>Ltd</strong>., Taoyuan County<br />
(Taiwan)<br />
Tesla Motors, Inc., Palo Alto, Calif. (<strong>US</strong>)<br />
Samsung SDI Co., <strong>Ltd</strong>., Suwon (Korea,<br />
Republic of)<br />
<strong>US</strong> 8,133,610 BATTERY Mashio Shibuya, Fukushima (Japan) Sony Corporation, Tokyo (Japan)<br />
<strong>US</strong> 8,133,611 METHOD OF MAKING<br />
POLYPYRROLE AND SILVER<br />
VANADIUM OXIDE<br />
COMPOSITE<br />
Branko N. Popov, Columbia, S.C. (<strong>US</strong>); and Jong-Won Lee,<br />
Columbia, S.C. (<strong>US</strong>)<br />
University of South Carolina, Columbia, S.C.<br />
(<strong>US</strong>)<br />
<strong>US</strong> 8,133,612 NEGATIVE ELECTRODES FOR Caisong Zou, Shanghai (China); Chuanfu Wang, Shenzhen BYD Company Limited, Shenzhen (China)<br />
RECHARGEABLE BATTERIES (China); and Junqing Dong, Shenzhen (China)<br />
<strong>US</strong> 8,133,613 NONAQUEO<strong>US</strong> Murali Ramasubramanian, Fremont, Calif. (<strong>US</strong>); and Robert Enovix Corporation, Fremont, Calif. (<strong>US</strong>)<br />
ELECTROLYTE SECONDARY<br />
BATTERY ANODE MATERIAL<br />
WITH A UNIFORM METAL-<br />
SEMICONDUCTOR ALLOY<br />
LAYER<br />
M. Spotnitz, Pleasanton, Calif. (<strong>US</strong>)<br />
<strong>US</strong> 8,133,614 CONTROL OF SILVER<br />
Hong Gan, Williamsville, N.Y. (<strong>US</strong>); Joseph Lehnes,<br />
Greatbatch <strong>Ltd</strong>., Clarence, N.Y. (<strong>US</strong>)<br />
VANADIUM OXIDE SURFACE Williamsville, N.Y. (<strong>US</strong>); Robert S. Rubino, Williamsville,<br />
AREAS AS A MEANS OF<br />
CONTROLLING VOLTAGE<br />
DELAY AND RDC GROWTH<br />
IN AN ELECTROCHEMICAL<br />
CELL<br />
N.Y. (<strong>US</strong>); and Esther S. Takeuchi, East Amherst, N.Y. (<strong>US</strong>)<br />
<strong>US</strong> 8,133,615 ALKALINE<br />
Robert P. Johnson, Lakewood, Ohio (<strong>US</strong>) Eveready <strong>Battery</strong> Company, Inc., St. Louis,<br />
ELECTROCHEMICAL CELL<br />
Mo. (<strong>US</strong>)<br />
<strong>US</strong> 8,133,616 LITHIUM MANGANESE Ivan Exnar, Itingen (Switzerland); Thierry Drezen, Cugy Dow Global Technologies LLC, Midland,<br />
PHOSPHATE POSITIVE<br />
(Switzerland); Nam Hee Kwon-Roth, Fribourg<br />
Mich. (<strong>US</strong>)<br />
MATERIAL FOR LITHIUM<br />
SECONDARY BATTERY<br />
(Switzerland); and Motoshi Isono, Aichi (Japan)<br />
<strong>US</strong> 8,133,617 NON-AQUEO<strong>US</strong><br />
Suguru Kozono, Kyoto (Japan); Ichiro Tanaka, Kyoto GS Yuasa International <strong>Ltd</strong>., Kyoto (Japan)<br />
ELECTROLYTE BATTERY, (Japan); Shigeki Yamate, Kyoto (Japan); Naohiro Tsumura,<br />
METHOD OF<br />
Kyoto (Japan); Yoshihiro Katayama, Kyoto (Japan); and<br />
MANUFACTURING THE<br />
SAME AND METHOD OF<br />
<strong>US</strong>ING THE SAME<br />
Toshiyuki Nukuda, Kyoto (Japan)<br />
<strong>US</strong> 8,133,618 PROCESS FOR PREPARING Laurent Gauthier, Montréal (Canada); Michel Gauthier, La Universite de Montreal, Montreal (Canada);<br />
ELECTROACTIVE INSERTION Prairie (Canada); Donald Lavoie, Montréal (Canada);<br />
Centre National de la Recherche<br />
COMPOUNDS AND<br />
Christophe Michot, Montréal (Canada); and Nathalie Scientifique, Paris (France); and Phostech<br />
ELECTRODE MATERIALS<br />
OBTAINED THEREFROM<br />
Ravet, Montréal (Canada)<br />
Lithium Inc., Montreal (Canada)<br />
<strong>US</strong> 8,133,619 NONAQUEO<strong>US</strong><br />
Hiroki Inagaki, Kawasaki (Japan); and Norio Takami, Kabushiki Kaisha Toshiba, Tokyo (Japan)<br />
ELECTROLYTE BATTERY,<br />
BATTERY PACK AND<br />
VEHICLE<br />
Yokohama (Japan)<br />
<strong>US</strong> 8,133,620 POLYMER ELECTROLYTE<br />
Kentaro Takahashi, Moriguchi (Japan) SANYO Electric Co., <strong>Ltd</strong>., Moriguchi-shi,<br />
SECONDARY CELL<br />
Osaka (Japan)<br />
<strong>US</strong> 8,133,621 LOCATION OF A FUEL CELL Chris Wormald, Waterloo (Canada); Raymond Reddy, Research In Motion Limited, Waterloo, ON<br />
<strong>Shmuel</strong> <strong>De</strong>-<strong>Leon</strong> <strong>Energy</strong>, <strong>Ltd</strong>. Mazal Arie 10, Hod- Hasharon 45309, Israel<br />
E-Mail: shmuel@sdle.co.il, Tel/Fax: 972-77-5010792, Mobile: 972-52-8601517
ON A MOBILE DEVICE Toronto (Canada); and Lyall Kenneth Winger, Waterloo<br />
(Canada)<br />
(<strong>US</strong>)<br />
<strong>US</strong> 8,133,622 HEATED REFORMER AND Zin Park, Suwon-si (Korea, Republic of); Ju-Yong Kim, Samsung SDI Co., <strong>Ltd</strong>., Yongin-si (Korea,<br />
FUEL CELL SYSTEM HAVING Suwon-si (Korea, Republic of); Ji-Seong Han, Suwon-si<br />
Republic of)<br />
THE SAME<br />
(Korea, Republic of); Hyun-Jeong Lim, Suwon-si (Korea,<br />
Republic of); Eun-Suk Cho, Suwon-si (Korea, Republic of);<br />
and Ho-Jin Kweon, Suwon-si (Korea, Republic of)<br />
<strong>US</strong> 8,133,623 FUEL CELL Canon Kabushiki Kaisha, Tokyo (Japan) Canon Kabushiki Kaisha, Tokyo (Japan)<br />
<strong>US</strong> 8,133,624 FUEL CELL MODULE DESIGN Daniel J. Darga, Victor, N.Y. (<strong>US</strong>); Mark T. Schluentz, East GM Global Technology Operations LLC,<br />
FOR ROB<strong>US</strong>T PRESSURE Rochester, N.Y. (<strong>US</strong>); and Steven L. Piedmont, Macedon,<br />
<strong>De</strong>troit, Mich. (<strong>US</strong>)<br />
MEASUREMENTS IN<br />
FREEZING CONDITIONS<br />
N.Y. (<strong>US</strong>)<br />
<strong>US</strong> 8,133,625 POWER CONTROLLING Bon-Gwan Gu, Seoul (Korea, Republic of); and Seung-Tae LG Electronics Inc., Seoul (Korea, Republic<br />
APPARAT<strong>US</strong> FOR FUEL CELL<br />
Ko, Seoul (Korea, Republic of)<br />
of); and LG Chem, <strong>Ltd</strong>., Seoul (Korea,<br />
SYSTEM AND METHOD<br />
THEREOF<br />
Republic of)<br />
<strong>US</strong> 8,133,626 FUEL CELL SYSTEM David J. Edlund, Hopkinton, Mass. (<strong>US</strong>); Thomas G. Herron, Idatech, LLC, Bend, Oreg. (<strong>US</strong>)<br />
CONTROLLER<br />
Bend, Oreg. (<strong>US</strong>); and Craig F. Holmes, Bend, Oreg. (<strong>US</strong>)<br />
<strong>US</strong> 8,133,627 FUEL CELL SYSTEM Jong-Ki Lee, Suwon-si (Korea, Republic of); and Yun-Suk Samsung SDI Co., <strong>Ltd</strong>., Suwon (Korea,<br />
Choi, Suwon-si (Korea, Republic of)<br />
Republic of)<br />
<strong>US</strong> 8,133,628 FUEL CELL SYSTEM Koji Dan, Niiza (Japan) Honda Motor Co., <strong>Ltd</strong>., Tokyo (Japan)<br />
<strong>US</strong> 8,133,629 FLUIDIC DISTRIBUTION Gerard F McLean, West Vancouver (Canada); Joerg<br />
Société BIC, Clichy (France)<br />
SYSTEM AND RELATED Zimmermann, Vancouver (Canada); Jeremy Schrooten,<br />
METHODS<br />
Mission (Canada); and Paul Sobejko, North Vancouver<br />
(Canada)<br />
<strong>US</strong> 8,133,630 FUEL CELL MODULE WITH Cheng Wang, Hsinchu (Taiwan); Ching-Po Lee, Hsinchu Young Green <strong>Energy</strong> Co.,, Hsinchu County<br />
MEMBRANE SWELLING (Taiwan); Jin-Shu Huang, Hsinchu (Taiwan); and Nien-Hui<br />
(Taiwan)<br />
CONTROL STRUCTURE<br />
Hsu, Hsinchu (Taiwan)<br />
<strong>US</strong> 8,133,631 CONTROL APPARAT<strong>US</strong> FOR Satoshi Aoyagi, Wako (Japan); Yoshinobu Hasuka, Wako Honda Giken Kogyo Kabushiki Kaisha, Tokyo<br />
STARTING FUEL CELL<br />
VEHICLE<br />
(Japan); and Hibiki Saeki, Wako (Japan)<br />
(Japan)<br />
<strong>US</strong> 8,133,632 METAL COMPONENT FOR<br />
FUEL CELL AND METHOD OF<br />
MANUFACTURING THE<br />
SAME, A<strong>US</strong>TENITIC<br />
STAINLESS STEEL FOR<br />
POLYMER ELECTROLYTE<br />
FUEL CELL AND METAL<br />
COMPONENT FOR FUEL<br />
CELL <strong>US</strong>ING THE SAME,<br />
POLYMER ELECTROLYTE<br />
FUEL CELL MATERIAL AND<br />
METHOD OF<br />
MANUFACTURING THE<br />
SAME, CORROSION-<br />
RESISTANT CONDUCTIVE<br />
COMPONENT AND METHOD<br />
OF MANUFACTURING THE<br />
SAME, AND FUEL CELL<br />
Shinobu Takagi, Nagoya (Japan); Masaki Shinkawa,<br />
Nagoya (Japan); Mikio Ura, Nagoya (Japan);<br />
Shinichi Yagi, Nagoya (Japan); Yasushi Kaneta,<br />
Nagoya (Japan); and Tatsuo Hisada, Nagoya (Japan)<br />
Daido Tokushuko Kabushiki Kaisha, Nagoya-<br />
Shi (Japan)<br />
<strong>US</strong> 8,133,633 STRUCTURE OF CATHODE Seung-jae Lee, Seongnam-si (Korea, Republic of); Ji-rae Samsung SDI Co., <strong>Ltd</strong>., Suwon-si, Gyeonggi-<br />
ELECTRODE FOR FUEL CELL Kim, Seoul (Korea, Republic of); and Yoon-hoi Lee, Seoul<br />
(Korea, Republic of)<br />
do (Korea, Republic of)<br />
<strong>US</strong> 8,133,634 FUEL CELL WITH PORO<strong>US</strong> Paul A. Kohl, Atlanta, Ga. (<strong>US</strong>); and Jun Li, Mansfield, Mass. Georgia Tech Research Corporation, Atlanta,<br />
FRIT BASED COMPOSITE<br />
PROTON EXCHANGE<br />
MEMBRANE<br />
(<strong>US</strong>)<br />
Ga. (<strong>US</strong>)<br />
<strong>US</strong> 8,133,635 ELECTROLYTE MEMBRANE Toshimitsu Tachibana, Osaka (Japan) Nitto <strong>De</strong>nko Corporation, Osaka (Japan)<br />
<strong>US</strong> 8,133,636 FUEL CELL STACK AND Yeong-chan Eun, Suwon-si (Korea, Republic of); Seong-jin Samsung SDI Co., <strong>Ltd</strong>., Gyeonggi-do (Korea,<br />
MANUFACTURING METHOD An, Suwon-si (Korea, Republic of); Jun-ho Sauk, Suwon-si<br />
Republic of)<br />
OF THE SAME<br />
(Korea, Republic of); Gill-tae Roh, Suwon-si (Korea,<br />
Republic of); and Seok-rak Chang, Suwon-si (Korea,<br />
Republic of)<br />
<strong>Shmuel</strong> <strong>De</strong>-<strong>Leon</strong> <strong>Energy</strong>, <strong>Ltd</strong>. Mazal Arie 10, Hod- Hasharon 45309, Israel<br />
E-Mail: shmuel@sdle.co.il, Tel/Fax: 972-77-5010792, Mobile: 972-52-8601517
<strong>US</strong> 8,133,637 FUEL CELLS AND FUEL CELL<br />
CATALYSTS<br />
INCORPORATING A<br />
NANORING SUPPORT<br />
<strong>US</strong> 8,129,044 FUEL CELL SYSTEM AND<br />
METHOD FOR OPERATING<br />
THE SAME<br />
<strong>US</strong> 8,129,045 ELECTROCHEMICAL<br />
ELEMENT<br />
<strong>US</strong> 8,129,046 INTRINSICALLY SAFE<br />
BATTERY PACK AND SYSTEM<br />
<strong>US</strong> 8,129,047 DEVICE FOR STORING<br />
ELECTRIC ENERGY<br />
<strong>US</strong> 8,129,048 METHOD FOR PRODUCING<br />
RECTANGULAR FLAT<br />
SECONDARY BATTERY<br />
<strong>US</strong> 8,129,049 JELLY-ROLL HAVING ACTIVE<br />
MATERIAL LAYER WITH<br />
DIFFERENT LOADING<br />
AMOUNT<br />
<strong>US</strong> 8,129,050 ANODE ACTIVE MATERIAL,<br />
AND ANODE AND LITHIUM<br />
BATTERY CONTAINING THE<br />
SAME<br />
<strong>US</strong> 8,129,051 GRAPHITE PARTICLES AND<br />
LITHIUM SECONDARY<br />
BATTERY <strong>US</strong>ING THE SAME<br />
AS NEGATIVE ELECTRODE<br />
<strong>US</strong> 8,129,052 POLYMER ADHESIVE SEALS<br />
FOR PROTECTED ANODE<br />
ARCHITECTURES<br />
<strong>US</strong> 8,129,053 SECONDARY BATTERY OF<br />
IMPROVED HIGH-RATE<br />
DISCHARGING PROPERTIES<br />
<strong>US</strong> 8,129,054 SYSTEM FOR ADDING<br />
SULFUR TO A FUEL CELL<br />
STACK SYSTEM FOR<br />
IMPROVED FUEL CELL<br />
STABILITY<br />
<strong>US</strong> 8,129,055 FUEL CELL WITH ANODE<br />
EXHA<strong>US</strong>T RECIRCULATION<br />
MEANS<br />
<strong>US</strong> 8,129,056 SYSTEM AND METHOD FOR<br />
CONTROLLING AN ANODE<br />
SIDE RECIRCULATION PUMP<br />
IN A FUEL CELL SYSTEM<br />
<strong>US</strong> 8,129,057 HIGH EFFICIENCY FUEL CELL<br />
SYSTEM<br />
Gongquan Sun, Dalian (China); Shuihua Tang, Dalian<br />
(China); Shiguo Sun, Dalian (China); Qin Xin, Dalian (China);<br />
Changkun Liu, Lawrenceville, N.J. (<strong>US</strong>); and Bing Zhou,<br />
Cranbury, N.J. (<strong>US</strong>)<br />
Chihiro Wake, Saitama (Japan); and Koichiro Miyata,<br />
Saitama (Japan)<br />
Headwaters Technology Innovation, LLC,<br />
Lawrenceville, N.J. (<strong>US</strong>)<br />
Honda Motor Co., <strong>Ltd</strong>., Tokyo (Japan)<br />
Hajime Nishino, Nara (Japan); Tomomichi Ueda, Osaka Panasonic Corporation, Osaka (Japan)<br />
(Japan); Kyousuke Miyata, Osaka (Japan); and Mikinari<br />
Shimada, Osaka (Japan)<br />
Rodney Corder, Chesterton, Ind. (<strong>US</strong>) Dwyer Instruments, Inc., Michigan City, Ind.<br />
(<strong>US</strong>)<br />
Herbert Damsohn, Aichwald (Germany); Conrad Pfender, Behr GmbH & Co., KG, Stuttgart (Germany)<br />
Besigheim (Germany); Thomas Schiehlen, Altheim<br />
(Germany); Martin Steinbach, Waiblingen (Germany); and<br />
Caroline Schmid, Stuttgart (Germany)<br />
Yasushi Hirakawa, Osaka (Japan); and Takayuki Shirane, Panasonic Corporation, Osaka (Japan)<br />
Osaka (Japan)<br />
Jong Hee Kim, Daejeon (Korea, Republic of); Dongmyung<br />
Kim, Daejeon (Korea, Republic of); Hyungook Yoon,<br />
Cheongju-Si (Korea, Republic of); Yong Jeong Kim, Daejeon<br />
(Korea, Republic of); Joo-Hwan Sung, Daejeon (Korea,<br />
Republic of); Seung W. Chu, Daejeon (Korea, Republic of);<br />
Sung-Pil Yoon, Daejeon (Korea, Republic of); and Dohyun<br />
Lee, Daejeon (Korea, Republic of)<br />
Han-su Kim, Seoul (Korea, Republic of); Dong-min Im,<br />
Seoul (Korea, Republic of); Seok-gwang Doo, Seoul (Korea,<br />
Republic of); Seung-sik Hwang, Seongnam-si (Korea,<br />
Republic of); Hun-Joon Sohn, Seoul (Korea, Republic of);<br />
Su-keun Yoon, Gwangmyoung-si (Korea, Republic of); and<br />
Sung-Il Lee, Seoul (Korea, Republic of)<br />
Yoshito Ishii, Hitachi (Japan); Tatsuya Nishida, Hitachi<br />
(Japan); Atsushi Fujita, Hitachi (Japan); and Kazuo Yamada,<br />
Hitachi (Japan)<br />
Steven J. Visco, Berkeley, Calif. (<strong>US</strong>); Yevgeniy S. Nimon,<br />
Danville, Calif. (<strong>US</strong>); Lutgard C. <strong>De</strong> Jonghe, Lafayette, Calif.<br />
(<strong>US</strong>); Bruce D. Katz, Emeryville, Calif. (<strong>US</strong>); and Alexei<br />
Petrov, Walnut Creek, Calif. (<strong>US</strong>)<br />
Seung W. Chu, Daejeon (Korea, Republic of); Dongmyung<br />
Kim, Daejeon (Korea, Republic of); Kwonyoung Choi,<br />
Daejeon (Korea, Republic of); Yong Jeong Kim, Daejeon<br />
(Korea, Republic of); Jong Hee Kim, Daejeon (Korea,<br />
Republic of); Dong Myung Oh, Seoul (Korea, Republic of);<br />
and Bora Shin, Seoul (Korea, Republic of)<br />
Subhasish Mukerjee, Pittsford, N.Y. (<strong>US</strong>); Karl J Haltiner,<br />
Jr., Fairport, N.Y. (<strong>US</strong>); and Jeffrey G. Weissman, West<br />
Henrietta, N.Y. (<strong>US</strong>)<br />
Hitoshi Igarashi, Atsugi (Japan); Keisuke Suzuki, Atsugi<br />
(Japan); and Masatoshi Iio, Atsugi (Japan)<br />
Bernhard Baaser, Milford, Mich. (<strong>US</strong>); and Volker<br />
Formanski, Wiesbaden (Germany)<br />
Arne W. Ballantine, Round Lake, N.Y. (<strong>US</strong>); Michael D.<br />
Gasda, Albany, N.Y. (<strong>US</strong>); and James F. McElroy, Suffield,<br />
Conn. (<strong>US</strong>)<br />
LG Chem, <strong>Ltd</strong>., Seoul (Korea, Republic of)<br />
SAMSUNG SDI Co., <strong>Ltd</strong>., Suwon-si, Gyeonggido<br />
(Korea, Republic of); and Seoul National<br />
University Industry Foundation, Seoul<br />
(Korea, Republic of)<br />
Hitachi Chemical Company, <strong>Ltd</strong>., Tokyo<br />
(Japan)<br />
PolyPlus <strong>Battery</strong> Company, Berkeley, Calif.<br />
(<strong>US</strong>)<br />
<strong>De</strong>lphi Technologies, Inc., Troy, Mich. (<strong>US</strong>)<br />
Nissan Motor Co., <strong>Ltd</strong>., Yokohama-shi,<br />
Kanagawa (Japan)<br />
GM Global Technology Operations LLC,<br />
<strong>De</strong>troit, Mich. (<strong>US</strong>)<br />
Honda Motor Co., <strong>Ltd</strong>., (Japan)<br />
<strong>US</strong> 8,129,058 FUEL CELL SYSTEM Seiji Fujihara, Osaka (Japan); Kunihiro Ukai, Nara (Japan); Panasonic Corporation, Osaka (Japan)<br />
<strong>Shmuel</strong> <strong>De</strong>-<strong>Leon</strong> <strong>Energy</strong>, <strong>Ltd</strong>. Mazal Arie 10, Hod- Hasharon 45309, Israel<br />
E-Mail: shmuel@sdle.co.il, Tel/Fax: 972-77-5010792, Mobile: 972-52-8601517
<strong>US</strong> 8,129,059 LOW PRESSURE DROP FUEL<br />
PROCESSOR FOR <strong>US</strong>E WITH<br />
PORTABLE FUEL CELLS<br />
<strong>US</strong> 8,129,060 BLEED TRIGGER MONITOR<br />
<strong>US</strong>ED IN FUEL CELL SYSTEM<br />
<strong>US</strong> 8,129,061 COOLING DEVICE AND<br />
COOLING METHOD FOR<br />
FUEL CELL<br />
<strong>US</strong> 8,129,062 FUEL CELL SYSTEM<br />
OPERATION METHOD<br />
<strong>US</strong> 8,129,063 HYDROGEN PRODUCTION<br />
APPARAT<strong>US</strong> WITH<br />
SOLUTION FEED CONTROL<br />
TO ELIMINATE BUILD-UP OF<br />
PRODUCTS ON A SOLID<br />
REACTANT<br />
<strong>US</strong> 8,129,064 METHOD AND APPARAT<strong>US</strong><br />
FOR MEASURING<br />
METHANOL VAPOR<br />
CONCENTRATION, METHOD<br />
OF CONTROLLING<br />
METHANOL VAPOR<br />
CONCENTRATION IN A FUEL<br />
CELL, AND FUEL CELL <strong>US</strong>ING<br />
THE SAME<br />
<strong>US</strong> 8,129,065 ELECTROCHEMICAL CELL<br />
ASSEMBLIES INCLUDING A<br />
REGION OF DISCONTINUITY<br />
<strong>US</strong> 8,129,066 FUEL CELL EXHIBITING<br />
ENHANCED HYDROGEN<br />
DISTRIBUTION DENSITY<br />
Yukimune Kani, Osaka (Japan); and Hidenobu Wakita,<br />
Kyoto (Japan)<br />
Jennifer E. Brantley, Dublin, Calif. (<strong>US</strong>); Ian W. Kaye,<br />
UltraCell, L.L.C., Commack, N.Y. (<strong>US</strong>)<br />
Livermore, Calif. (<strong>US</strong>); and Hiep T. Nguyen, San Francisco,<br />
Calif. (<strong>US</strong>)<br />
Seth E. Lerner, Honeoye Falls, N.Y. (<strong>US</strong>); and Darrell W. GM Global Technology Operations LLC,<br />
Burleigh, Honeoye Falls, N.Y. (<strong>US</strong>)<br />
<strong>De</strong>troit, Mich. (<strong>US</strong>)<br />
Nobuo Fujita, Toyota (Japan) Toyota Jidosha Kabushiki Kaisha, Toyota<br />
(Japan)<br />
Yoshikazu Tanaka, Kyoto (Japan); Terumaru Harada, Ikoma<br />
(Japan); Shinji Miyauchi, Shiki-gun (Japan); and Tetsuya<br />
Ueda, Kasugai (Japan)<br />
Takafumi Sarata, Chiba (Japan); Fumiharu Iwasaki, Chiba<br />
(Japan); Norimasa Yanase, Chiba (Japan); Kazutaka<br />
Yuzurihara, Chiba (Japan); Noboru Ishisone, Chiba (Japan);<br />
Toru Ozaki, Chiba (Japan); and Tsuneaki Tamachi, Chiba<br />
(Japan)<br />
Kyoung-hwan Choi, Suwon-si (Korea, Republic of); Sang-<br />
Kyun Kang, Seoul (Korea, Republic of); Jin-ho Kim, Seoul<br />
(Korea, Republic of); Soon-ho Song, Seoul (Korea, Republic<br />
of); and Jin-hwa Chung, Seoul (Korea, Republic of)<br />
Jeremy Schrooten, Mission (Canada); and Paul Sobejko,<br />
North Vancouver (Canada)<br />
Toru Ozaki, Chiba (Japan); Fumiharu Iwasaki, Chiba<br />
(Japan); Kazutaka Yuzurihara, Chiba (Japan); Tsuneaki<br />
Tamachi, Chiba (Japan); Takafumi Sarata, Chiba (Japan);<br />
and Norimasa Yanase, Chiba (Japan)<br />
Panasonic Corporation, Osaka (Japan)<br />
Seiko Instruments Inc., (Japan)<br />
Samsung SDI Co., <strong>Ltd</strong>., Suwon-si, Gyeonggido<br />
(Korea, Republic of); and Industry-<br />
Academic Cooperation Foundation, Younsei<br />
University, Seoul (Korea, Republic of)<br />
Société BIC, Clichy (France)<br />
Seiko Instruments Inc., (Japan)<br />
<strong>US</strong> 8,129,067 FUEL CELL Hideichi Yamamura, Tokorozawa (Japan); and Tadashi<br />
Tsunoda, Nerima-ku (Japan)<br />
Honda Motor Co., <strong>Ltd</strong>., Tokyo (Japan)<br />
<strong>US</strong> 8,129,068 FUEL CELL AND FUEL CELL<br />
STACK<br />
Tadashi Tsunoda, Nerima-ku (Japan) Honda Motor Co., <strong>Ltd</strong>., Tokyo (Japan)<br />
<strong>US</strong> 8,129,069 FUEL CELL COMPONENTS Ramanathan S. Lalgudi, Columbus, Ohio (<strong>US</strong>); Jay R. Sayre, Battelle Memorial Institute, Columbus, Ohio<br />
INCLUDING IMMOBILIZED Gahanna, Ohio (<strong>US</strong>); and Bhima R. Vijayendran, Dublin,<br />
(<strong>US</strong>)<br />
HETEROPOLYACIDS<br />
Ohio (<strong>US</strong>)<br />
<strong>US</strong> 8,129,070 FUEL CELL Shinji Jomori, Susono (Japan); Naoki Takehiro, Sunto-gun Toyota Jidosha Kabushiki Kaisha, Toyota-shi<br />
(Japan); Tatsuya Arai, Susono (Japan); Keiichi Kaneko, Fuji<br />
(Japan); and Takumi Taniguchi, Susono (Japan)<br />
(Japan)<br />
<strong>US</strong> 8,129,071 HYDROPHILIC LAYER FOR<br />
Robert M. Darling, South Windsor, Conn. (<strong>US</strong>) UTC Power Corporation, South Windsor,<br />
<strong>US</strong>E IN A FUEL CELL<br />
Conn. (<strong>US</strong>)<br />
<strong>US</strong> 8,129,072 ION-CONDUCTING CERAMIC Matthew Yates, Penfield, N.Y. (<strong>US</strong>); and Dongxia Liu, University of Rochester, Rochester, N.Y. (<strong>US</strong>)<br />
APPARAT<strong>US</strong>, METHOD,<br />
FABRICATION, AND<br />
APPLICATIONS<br />
Rochester, N.Y. (<strong>US</strong>)<br />
<strong>US</strong> 8,129,073 CATALYST-COATED Mikiko Yoshimura, Osaka (Japan); Yoshihiro Hori, Nara Panasonic Corporation, Osaka (Japan)<br />
MEMBRANE, MEMBRANE- (Japan); Takeou Okanishi, Osaka (Japan); and Masaki<br />
ELECTRODE ASSEMBLY,<br />
FUEL CELL AND FUEL CELL<br />
STACK<br />
Yamauchi, Osaka (Japan)<br />
<strong>US</strong> 8,129,074 CROSSLINKED NANO- Jinhua Chen, Takasaki (Japan); Masaru Yoshida, Takasaki Japan Atomic <strong>Energy</strong> Agency, Ibaraki (Japan);<br />
INORGANIC<br />
(Japan); Masaharu Asano, Takasaki (Japan); Tetsuya and Nitto <strong>De</strong>nko Corporation, Ibaraki (Japan)<br />
PARTICLE/POLYMER Yamaki, Takasaki (Japan); Toshimitsu Tachibana, Ibaraki<br />
ELECTROLYTE MEMBRANE (Japan); Soji Nishiyama, Ibaraki (Japan); and Yozo Nagai,<br />
FOR MEMBRANE<br />
ELECTRODE ASSEMBLY<br />
Ibaraki (Japan)<br />
<strong>Shmuel</strong> <strong>De</strong>-<strong>Leon</strong> <strong>Energy</strong>, <strong>Ltd</strong>. Mazal Arie 10, Hod- Hasharon 45309, Israel<br />
E-Mail: shmuel@sdle.co.il, Tel/Fax: 972-77-5010792, Mobile: 972-52-8601517
<strong>US</strong> 8,129,075 Jon P. Owejan, Honeoye,<br />
N.Y. (<strong>US</strong>); Jeffrey A. Rock,<br />
Fairport, N.Y. (<strong>US</strong>); Steven J.<br />
Spencer, Rochester, N.Y.<br />
(<strong>US</strong>); and Thomas A.<br />
Trabold, Pittsford, N.Y. (<strong>US</strong>)<br />
<strong>US</strong> 8,129,076 ELECTRODE FOR LITHIUM<br />
BATTERIES AND METHOD<br />
OF MANUFACTURING<br />
ELECTRODE FOR LITHIUM<br />
BATTERIES<br />
<strong>US</strong> 8,129,077 METHOD OF<br />
MANUFACTURING FUEL<br />
CELL<br />
Jon P. Owejan, Honeoye, N.Y. (<strong>US</strong>); Jeffrey A. Rock,<br />
Fairport, N.Y. (<strong>US</strong>); Steven J. Spencer, Rochester, N.Y. (<strong>US</strong>);<br />
and Thomas A. Trabold, Pittsford, N.Y. (<strong>US</strong>)<br />
Satoshi Shibutani, Osaka (Japan); Yuko Ogawa, Osaka<br />
(Japan); and Kazuyoshi Honda, Osaka (Japan)<br />
GM Global Technology Operations LLC,<br />
<strong>De</strong>troit, Mich. (<strong>US</strong>)<br />
Panasonic Corporation, Osaka (Japan)<br />
Satoshi Aoyama, Susono (Japan) Toyota Jidosha Kabushiki Kaisha, Toyota-shi,<br />
Aichi-ken (Japan)<br />
<strong>Shmuel</strong> <strong>De</strong>-<strong>Leon</strong> <strong>Energy</strong>, <strong>Ltd</strong>. Mazal Arie 10, Hod- Hasharon 45309, Israel<br />
E-Mail: shmuel@sdle.co.il, Tel/Fax: 972-77-5010792, Mobile: 972-52-8601517
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