Sanyo Electric Company

Electrochemical potential memory devices were proposed by Takahashi and Yamamoto (1973) they have been extensively developed by Ikeda and Tada (1980) of the Sanyo Electric Company, Japan, and are commercially available. The device construction is... [Pg.327]

SACRAMENTO MUNICIPAL UTILITY DISTRICT SAMSUNG ELECTRONICS CO LTD SANYO ELECTRIC COMPANY LTD SCHOTT SOLAR... [Pg.141]

MITSUBISHI CORP Tokyo MITSUBISHI ELECTRIC CORPORATION Tokyo PANASONIC EV ENERGY CO LTD Shizuoka SANYO ELECTRIC COMPANY LTD Osaka SHARP CORPORATION Osaka TOSHIBA CORPORATION Tokyo... [Pg.146]

Panama Green Energy Inc SKYPOWER CORP Panasonic Automotive Systems of America PANASONIC EV ENERGY CO LTD Panasonic Corporation SANYO ELECTRIC COMPANY LTD... [Pg.433]

SANYO Consumer Electronics Co., Ltd. SANYO ELECTRIC COMPANY LTD SANYO Electric Company Ltd KYOCERA CORP SANYO Electric Sales Co., Ltd. SANYO ELECTRIC COMPANY LTD... [Pg.435]

M. Uehara, M. Yamasaki, A. Yanai, T. Noma, and K. Nishio, Japanese Patent Application Number 95-296818, to Sanyo Electric Company, 1997. [Pg.3942]

The basic concept of the currently popular lithium-ion batteries (LIBs) was developed in 1985 by Yoshino et al. from Asahi Kasei Corporation [4-6]. LIBs were first marketed by Sony Corporation in 1991, after which Sanyo Electric Company s batteries with graphite anodes were marketed in 1994 [7]. The capacity of LIBs around 1997 was more than 1.5-fold that when they were launched, and firam the point of view of battery design, increasing the capacity further was considered difficult. [Pg.168]

In 1992, Sanyo Electric Company found that vinylene carbonate (VC) (1), the most well-known additive at present, can be used as a solvent in lithium secondary batteries [39],... [Pg.172]

In 1986, Sanyo Electric Company found that cyclic carbonates obtained by introducing halogens into EC can be used as solvents [84], which was followed by numerous reports on this topic [85-91]. In 1996, McMillan et al. from the National Research Council of Canada found an electrolyte that was compatible with graphite anode by utilizing fluoroethylene carbonate (60) [87] and propylene carbonate. The number of patent application for electrolytes consisting of fluoroethylene carbonate in combination with dinitrile compounds increased drastically around 2004. Details are described in Sect. 3.5.2 in the discussion of dinitriles. [Pg.180]

In 1990, Sony Corporation found that the amides IV-methylpyrrolidone (72) and MAi-dimethylacetamide (73) can be used as additives in small quantities [99], and in 1995, Wilson Greatbatch Technologies found that the imides bis(Af-succinimidyl) carbonate (74) and benzyl Ai-succinimidyl carbonate (75) can be used as additives in small quantities [100]. In 1997, Fujitsu and Ube Industries, Ltd. found that Ai-hydroxysuccinimide (76) can be used as an additive in small quantities [ 101 ], and Sanyo Electric Company discovered that cyclic imides such as succinimide (77) and maleimide (78) can also be used as additives in small quantities in 1997 and 1998, respectively [102,103]. [Pg.182]

In 1998, Sanyo Electric Company and Ube Industries, Ltd. reported electrolytes containing aklylbenzene compounds having a tertiary carbon adjacent to the phenyl group, represented by compounds such as cumene (108) and cyclohexylbenzene (109). In combination with a battery cell casing equipped with a current interrupt... [Pg.189]

In 1997, Sanyo Electric Company discovered that lithium salts such as lithium fluorophosphate (Li2P03F) (173) and lithium difluorophosphate (LiP02F2) (174) can be used as additives in small quantities [162], Furthermore, in 2(X)3, Mitsubishi Chemical Corporation discovered a method for manufacturing lithium difluorophosphate (174) [163],... [Pg.199]

Cadnica sealed type Nickel-Cadmium batteries engineering handbook, Sanyo Electric Company, Osaka... [Pg.441]

S Tsutsumi. Recycling of Waste Plastics, Sanyo Electric Company Papers, Environmental Division, Conversion of Refuse to Energy, Montreux 3-5, Nov. 1975, Conference Papers IEEE Catalog Number 75 CH 1008-2CRE Zurich Eiger AG p 567. [Pg.473]

Lithium s 47% fraction of the 3.61 bilUon rechargeable battery market in 1999s had become 52% and 3 billion by itself in 2002. Sony Corp. had about 33% of this market, and Sanyo Electric Company 23% in 2000. Sony originally developed the lithium-ion batteries, but in 2000 began converting much of its manufacturing capacity to the more profitable lithium polymer type. Sanyo Electric also produced about 32% of the nickel-cadmium, and 46% of the nickel hydride batteries in 2000 (Lerner, 2001 Jarvis, 2000). Considerable research has been conducted on rechargeable lithium batteries for automobiles, but by 2002 there were still major safety and construction problems. [Pg.194]

Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...