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    • 3. 发明申请
    • POSITIVE ELECTRODE FOR NONAQUEOUS ELECTROLYTE SECONDARY BATTERY, AND PRODUCTION METHOD THEREOF
    • 非电解二次电池用正极及其制造方法
    • US20080193846A1
    • 2008-08-14
    • US12029941
    • 2008-02-12
    • Hideki Morishima
    • Hideki Morishima
    • H01M4/52H01M4/46H01M4/50H01M10/04H01M4/48
    • H01M4/525H01M4/485H01M4/505Y10T29/49108
    • A positive electrode for a nonaqueous electrolyte secondary battery using a positive electrode active material mixture according to an embodiment of the invention includes a positive electrode active material capable of intercalating and deintercalating a lithium ion, a conductive agent and a binder, in which the positive electrode active material is produced by coating cobalt-based lithium composite oxide represented by a general formula: LiaCo1-sM1sO2 with lithium nickel cobalt manganese oxide represented by a general formula: LibNitCouMnvO2, the ratio r1/r2 of the average particle diameter r1 of the cobalt-based lithium composite oxide and the average particle diameter r2 of the lithium nickel cobalt manganese oxide is 2≦r1/r2≦50, and the average particle diameter r2 of the lithium nickel cobalt manganese oxide is 0.5 μm≦r2≦20 μm. By containing such a constitution, a positive electrode for a nonaqueous electrolyte secondary battery in which even when the charging discharging is repeated at a high potential of 4.5 V based on lithium, not only is the retention characteristics in a charged state excellent, but also the enhancing the capacity and the energy density of the battery can be achieved; and a production method thereof, can be provided.
    • 根据本发明的实施方式的使用正极活性物质混合物的非水电解质二次电池用正极包括能够插入和脱嵌锂离子的正极活性物质,导电剂和粘合剂,其中正极 通过涂覆由以下通式表示的钴基锂复合氧化物来生产活性材料:由以下通式表示的钴基锂复合氧化物:1 / > 2 与由以下通式表示的锂镍钴锰氧化物:Li&lt; b&gt;&lt;&lt;&lt;&lt; O 2的平均粒径r 1的比值r 1 / r 2 2 钴基锂复合氧化物和锂镍钴锰氧化物的平均粒径r 2 2是2≤R1/2/2 > <= 50,并且锂镍钴锰氧化物的平均粒径r 2 N 2 ide为0.5μm<= R <2 <=20μm。 通过含有这样的构成,即使在以基于锂的4.5V的高电位重复充电放电的情况下,非水电解质二次电池用正极不仅充电状态下的保持特性优异, 可以实现电池的容量和能量密度的提高; 及其制造方法。
    • 4. 发明授权
    • Catadioptric projection optical system, exposure apparatus having the same, device fabrication method
    • 折反射投影光学系统,具有相同的曝光设备,器件制造方法
    • US07283294B2
    • 2007-10-16
    • US11257785
    • 2005-10-24
    • Yuji KatashibaChiaki TerasawaHideki Morishima
    • Yuji KatashibaChiaki TerasawaHideki Morishima
    • G02B17/08
    • G03F7/70225G02B17/08G02B17/0892G03F7/70275G03F7/70341
    • A catadioptric optical system comprising a first imaging optical system including a concave mirror and forming an intermediate image of a first object, said first imaging optical system forming a reciprocating optical system that an incidence light and reflected light pass, a second imaging optical system for forming an image of the intermediate image onto a second object, and a first optical path deflective member, provided between the concave mirror and the intermediate image, for introducing a light from the first imaging optical system to the second imaging optical system, wherein said first optical path deflective member deflects a light in such a direction that a forward path of the first imaging optical system intersects a return path of the first imaging optical system, and wherein said intermediate image is formed without an optical element after a deflection.
    • 一种反折射光学系统,包括:第一成像光学系统,包括凹面镜并形成第一物体的中间图像,所述第一成像光学系统形成入射光和反射光通过的往复光学系统;第二成像光学系统,用于形成 设置在第二物体上的中间图像的图像和设置在凹面镜和中间图像之间的第一光路偏转构件,用于将来自第一成像光学系统的光引入第二成像光学系统,其中所述第一光学 路径偏转构件沿着第一成像光学系统的前进路径与第一成像光学系统的返回路径相交的方向偏转光,并且其中所述中间图像在偏转之后形成为没有光学元件。
    • 5. 发明授权
    • Immersion optical system and optical apparatus having the same
    • 浸入式光学系统及其相同的光学装置
    • US07199939B2
    • 2007-04-03
    • US11319195
    • 2005-12-28
    • Akinori OhkuboTokuyuki HondaHideki Morishima
    • Akinori OhkuboTokuyuki HondaHideki Morishima
    • G02B3/12
    • G03F7/70341G02B21/33G03F7/70241G11B7/1374
    • An immersion optical system that condenses light from a light source toward a first surface includes a lens having a concave lens surface closest to the first surface, a liquid being filled in a space between the concave lens surface and the first surface, wherein a conditional equation d>L/[2×tan {arcsin(NA/ni)}] is met, where d is a distance between a first point and a second point when the distance becomes maximum between the first point on the concave lens surface and the second point on the first surface in a direction substantially orthogonal to the first surface, L/2 is a maximum distance from the second point to an edge of an irradiation area of the light on a first surface, NA is a numerical aperture of the immersion optical system, and ni is a refractive index of the liquid.
    • 将来自光源的光朝向第一表面冷凝的浸没式光学系统包括具有最接近第一表面的凹透镜表面的透镜,在凹透镜表面和第一表面之间的空间中填充液体,其中条件方程 d> L / [2xtan {arcsin(NA / ni)),其中d是当凹透镜表面上的第一点与第一点之间的距离变为最大时第一点和第二点之间的距离 表面在与第一表面大致正交的方向上,L / 2是从第二点到第一表面上的光的照射区域的边缘的最大距离,NA是浸没式光学系统的数值孔径,ni 是液体的折射率。
    • 6. 发明申请
    • Catadioptric projection optical system, exposure apparatus having the same, device fabrication method
    • 折反射投影光学系统,具有相同的曝光设备,器件制造方法
    • US20060088320A1
    • 2006-04-27
    • US11257785
    • 2005-10-24
    • Yuji KatashibaChiaki TerasawaHideki Morishima
    • Yuji KatashibaChiaki TerasawaHideki Morishima
    • H04B10/00
    • G03F7/70225G02B17/08G02B17/0892G03F7/70275G03F7/70341
    • A catadioptric optical system comprising a first imaging optical system including a concave mirror and forming an intermediate image of a first object, said first imaging optical system forming a reciprocating optical system that an incidence light and reflected light pass, a second imaging optical system for forming an image of the intermediate image onto a second object, and a first optical path deflective member, provided between the concave mirror and the intermediate image, for introducing a light from the first imaging optical system to the second imaging optical system, wherein said first optical path deflective member deflects a light in such a direction that a forward path of the first imaging optical system intersects a return path of the first imaging optical system, and wherein said intermediate image is formed without an optical element after a deflection.
    • 一种反折射光学系统,包括:第一成像光学系统,包括凹面镜并形成第一物体的中间图像,所述第一成像光学系统形成入射光和反射光通过的往复光学系统;第二成像光学系统,用于形成 设置在第二物体上的中间图像的图像和设置在凹面镜和中间图像之间的第一光路偏转构件,用于将来自第一成像光学系统的光引入第二成像光学系统,其中所述第一光学 路径偏转构件沿着第一成像光学系统的前进路径与第一成像光学系统的返回路径相交的方向偏转光,并且其中所述中间图像在偏转之后形成为没有光学元件。