摘要:
A cathode with a cathode active material is provided. The cathode active material is obtained by mixing a zirconium-containing lithium cobalt composite oxide containing zirconium as a sub-component element in a first lithium cobalt composite oxide expressed by a formula LitCoMsO2 (where M is at least one kind of element selected from Fe, V, Cr, Ti, Mg, Al, B, and Ca; 0≦s≦0.03; 0.05≦t≦1.15), and a second lithium cobalt composite oxide expressed by a formula LixCol-yAyO2 (where A is at least one kind of element selected from Mg and Al; 0.05≦x≦1.15; 0≦y≦0.03).
摘要翻译:提供具有阴极活性材料的阴极。 阴极活性物质通过将含有锆作为次成分元素的含锆锂钴复合氧化物混合在由下式表示的第一种锂钴复合氧化物中获得: (其中M是选自Fe,V,Cr,Ti,Mg,Al,B和Ca中的至少一种元素;0≤s≤0.03; 0.05 &lt; = t <= 1.15)和由下式表示的第二种锂钴复合氧化物:&lt;&lt;&lt; 2其中A是选自Mg和Al中的至少一种元素; 0.05 <= x <= 1.15; 0 <= y <0.03)。
摘要:
A cathode with a cathode active material is provided. The cathode active material is obtained by mixing a zirconium-containing lithium cobalt composite oxide containing zirconium as a sub-component element in a first lithium cobalt composite oxide expressed by a formula LitCoMsO2 (where M is at least one kind of element selected from Fe, V, Cr, Ti, Mg, Al, B, and Ca; 0≦s≦0.03; 0.05≦t≦1.15), and a second lithium cobalt composite oxide expressed by a formula LixCo1-yAyO2 (where A is at least one kind of element selected from Mg and Al; 0.05≦x≦1.15; 0≦y≦0.03).
摘要翻译:提供具有阴极活性材料的阴极。 阴极活性物质通过将含有锆作为次成分元素的含锆锂钴复合氧化物混合在由下式表示的第一种锂钴复合氧化物中获得: (其中M是选自Fe,V,Cr,Ti,Mg,Al,B和Ca中的至少一种元素;0≤s≤0.03; 0.05 &lt; = t&lt; = 1.15)和由式Li x 1 O y O y O y表示的第二锂钴复合氧化物, (其中A是选自Mg和Al中的至少一种元素; 0.05 <= x <= 1.15;0≤y≤0.03)。
摘要:
An ink supply port forming substrate 21, a common ink chamber forming substrate 25, and a nozzle plate 27 are bonded together, by inserting between them thermally fusible films 31and 32 respectively, in which are formed through holes 45 and 45 at two or more positions, and by also filling the film through holes with an adhesive that is mixed with a gap material G for adjusting the thicknesses of the thermally fusible films when they are fused, so as to form a flow path unit 30; and then the flow path unit 30 and the actuator units 1 are bonded together by inserting between them a thermally fusible film 33, in which are through holes 64 at two or more positions, and by also filling the through holes with an adhesive that is mixed with a gap material G for adjusting the thickness of the thermally fusible film when it is fused. In this structure, the extruded quantity of the thermally fusible films can be received by the through holes 45 and 64, and the gap materials G can prevent the thermally fusible films from being unnecessarily spread out.
摘要:
In an ink jet printer, a recording unit in which an ink cartridge is detachably mounted has a cartridge removal preventing member so that the ink cartridge is prevented from being carelessly removed therefrom, and a moving mechanism is provided which, when the recording unit is mounted on the carriage, moves a first electrical connecting section towards a second electrical connecting section so that the first and second electrical connecting section are connected to each other with the aid of an energizing member under pressure, and, when the recording head is removed from the carriage, moves the first electrical connecting section away from the second electrical connecting section against the elastic force of the energizing member, whereby the recording head is detachably mounted on the carriage, and the former is positively electrically connected to the latter.
摘要:
A method of producing active cathode material for lithium secondary battery is provided. In accordance with this invention, a mixture of a lithium salt and a transition metal salt is baked in oxygen atmosphere, wherein the oxygen pressure during baking is about 147.1 kPa or more. The lithium transition metal compound oxides prepared have the composition, Li.sub.x Ni.sub.y M.sub.1-y O.sub.2, wherein M is one kind of transition metal or more, and x and y respectively have the values 0.05.ltoreq.x.ltoreq.1.10 and 0.5.ltoreq.y.ltoreq.1.0. The active cathode material for a lithium secondary battery according to this invention, provides lithium transition metal compound oxides which are uniform in composition and characteristic, and exhibit excellent functioning as an active cathode material. Lithium secondary batteries produced therewith exhibit excellent cycle characteristics, high energy densities and low material costs, are of uniform quality and exhibit no unevenness of battery capacity.