会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 71. 发明申请
    • Aging method and aging apparatus for plasma display panel
    • 等离子体显示面板的老化方法和老化装置
    • US20060228972A1
    • 2006-10-12
    • US10552396
    • 2004-07-16
    • Koji AkiyamaKoji AotoMasaaki YamauchiTakashi Aoki
    • Koji AkiyamaKoji AotoMasaaki YamauchiTakashi Aoki
    • H01J9/24H01J61/52H01J17/49H01J9/00
    • H01J11/12H01J9/445
    • An aging method and an aging device are provided by which a plasma display panel that reduces the generation of irregular color and that has a high display quality can be obtained. An aging method and an aging apparatus for plasma display panels are disclosed which enable to obtain a plasma display panel with high display quality wherein color irregularities are suppressed. The aging apparatus for plasma display panels comprises a plurality of fans. When air is blown to a plasma display panel using the fans during aging of the plasma display panel, at least the direction or the amount of air blow by at least one of the fans is changed so that the temperatures of image display regions in the plasma display panel can be uniform, thereby suppressing color irregularities.
    • 提供了一种老化方法和老化装置,通过该方法可以获得减少不规则颜色的产生并且具有高显示质量的等离子体显示面板。 公开了一种用于等离子体显示面板的老化方法和老化装置,其能够获得具有高显示质量的等离子体显示面板,其中抑制了颜色不规则。 等离子体显示面板的老化装置包括多个风扇。 当在等离子体显示面板老化期间使用风扇将空气吹到等离子体显示面板时,至少由风扇中的至少一个风扇吹出的方向或吹入量至少使得等离子体中的图像显示区域的温度 显示面板可以均匀,从而抑制颜色不规则。
    • 72. 发明授权
    • Oxide film forming method
    • 氧化膜成型方法
    • US07064084B2
    • 2006-06-20
    • US10468914
    • 2002-02-28
    • Shingo HishiyaKoji AkiyamaYoshikazu FurusawaKimiya Aoki
    • Shingo HishiyaKoji AkiyamaYoshikazu FurusawaKimiya Aoki
    • H01L21/324
    • H01L21/02238H01L21/02255H01L21/02299H01L21/31658H01L21/31662Y10S438/909
    • To provide a method for the formation of oxide films to form with advantage a high-quality oxide film having excellent uniformity in film thickness and film quality over the entire wafer. The method for the formation of oxide films comprises: the pretreatment process of forming a protective oxide film on the surface of a wafer positioned in a reaction vessel by performing oxidation treatment with radical oxidative species or an atmosphere containing radical oxidative species under depressurized conditions; and the oxide-film-formation process of forming an oxide film on the wafer by performing oxidation treatment at a predetermined temperature under depressurized conditions. The oxide-film-formation process is preferably performed following the pretreatment process in a continuous manner in the reaction vessel in which the pretreatment process is performed. The pretreatment process is preferably performed at a temperature lower than the temperature for the oxide-film-formation process and also preferably performed under depressurized conditions, the level of the depressurization being higher than the level for the oxide-film-formation process. A high-quality gate-insulating film for a transistor chip can be formed according to this method for the formation of oxide films.
    • 为了提供形成氧化物膜的方法,优选形成在整个晶片上具有优异的膜厚度和膜质量均匀性的高质量氧化物膜。 形成氧化膜的方法包括:通过在减压条件下用自由基氧化物质或含有自由基氧化物质的气氛进行氧化处理,在位于反应容器中的晶片表面上形成保护性氧化膜的预处理工艺; 以及通过在减压条件下在规定温度下进行氧化处理,在晶片上形成氧化膜的氧化膜形成工序。 氧化膜形成方法优选在进行预处理工序的反应容器中以连续的方式进行预处理。 预处理过程优选在低于氧化膜形成工艺的温度的温度下进行,并且还优选在减压条件下进行,减压水平高于氧化膜形成工艺的水平。 根据用于形成氧化膜的方法,可以形成用于晶体管芯片的高质量栅极绝缘膜。
    • 76. 发明授权
    • Electron-emitting element and image display device using the same
    • 电子发射元件和使用其的图像显示装置
    • US06486609B1
    • 2002-11-26
    • US09936511
    • 2001-09-14
    • Tetsuya ShiratoriHideo KurokawaKoji Akiyama
    • Tetsuya ShiratoriHideo KurokawaKoji Akiyama
    • H01J302
    • H01J21/105H01J3/022H01J31/127
    • An electron-emitting element is provided which lessens the necessary voltage to be applied to a grid electrode and accurately and precisely controls electron emission from a cathode electrode. This is achieved by a field emission type electron-emitting element wherein an electric field existing between the grid electrode (3) and an anode electrode emanates from an electron passage opening in the grid electrode (3) to the cathode electrode (2) side and interacts with an electric field existing between the cathode electrode (2) and the grid electrode (3) such that a combined electric field is formed, and an electron-emission controlling element is provided which varies the intensity of the combined electric field by varying the potential of at least one of the cathode electrode (2), the anode electrode, and the grid electrode (3).
    • 提供了一种电子发射元件,其减少了施加到栅格电极所需的电压并且准确且精确地控制来自阴极电极的电子发射。 这是通过场发射型电子发射元件实现的,其中存在于栅极(3)和阳极电极之间的电场从栅电极(3)中的电子通道开口发射到阴极电极(2)侧, 与存在于阴极电极(2)和栅电极(3)之间的电场相互作用,从而形成组合的电场,并且提供电子发射控制元件,其通过改变阴极电极 阴极电极(2),阳极电极和栅电极(3)中的至少一个的电位。
    • 77. 发明授权
    • Encapsulated toner for heat-and-pressure fixing and method for producing
the same
    • 用于热压定影的封装调色剂及其制造方法
    • US5750304A
    • 1998-05-12
    • US633211
    • 1996-04-16
    • Takashi YamaguchiTetsuya AsanoYoshihiro FukushimaKoji AkiyamaKuniyasu Kawabe
    • Takashi YamaguchiTetsuya AsanoYoshihiro FukushimaKoji AkiyamaKuniyasu Kawabe
    • B01J13/18G03G9/093G03G9/097
    • G03G9/09328B01J13/18G03G9/09371G03G9/09392
    • The encapsulated toner for heat-and-pressure fixing including a heat-fusible core material containing at least a thermoplastic resin and a coloring agent and a shell comprising a hydrophilic resin formed thereon so as to cover the surface of the core material, wherein the core material contains a silicone oil having a kinematic viscosity of from 10 to 500 cSt at 25.degree. C., and wherein the encapsulated toner is obtainable by in situ polymerization method. Such an encapsulated toner can be produced by in situ polymerization method including the following steps (a)-(c): (a) dissolving an amorphous polyester in a mixture comprising a core material-constituting monomer, a polymerization initiator, a silicone oil, and a coloring agent; (b) dispersing the mixture obtained in step (a) in an aqueous dispersant, and localizing the amorphous polyester on the surface of droplets of a core-constituting material to give a polymerizable composition; and (c) polymerizing the polymerizable composition obtained in step (b) by in situ polymerization method to form a core material, wherein the core material is covered with a shell comprising the amorphous polyester, thereby giving an encapsulated toner.
    • 用于热固定的包封调色剂包括至少含有热塑性树脂和着色剂的热熔芯材料和包含形成在其上的亲水性树脂以便覆盖芯材表面的外壳,其中芯体 材料含有在25℃下运动粘度为10-500cSt的硅油,其中包封的调色剂可通过原位聚合法获得。 这种包封的调色剂可以通过原位聚合法制备,包括以下步骤(a) - (c):(a)将无定形聚酯溶解在包含芯材构成单体,聚合引发剂,硅油, 和着色剂; (b)将步骤(a)中获得的混合物分散在水分散剂中,并将非晶聚酯定位在芯构成材料的液滴的表面上,得到可聚合组合物; 和(c)通过原位聚合法聚合步骤(b)中获得的可聚合组合物以形成芯材,其中芯材被包含非晶聚酯的壳覆盖,由此得到包封的调色剂。