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    • 32. 发明申请
    • FIELD EMISSION LIGHT SOURCE DEVICE AND MANUFACTURING METHOD THEREOF
    • 场发射光源装置及其制造方法
    • US20130169143A1
    • 2013-07-04
    • US13821512
    • 2010-09-20
    • Mingjie ZhouWenbo MaQingtao Li
    • Mingjie ZhouWenbo MaQingtao Li
    • H01J1/90H01J9/38
    • H01J1/90H01J9/24H01J9/38H01J61/30H01J63/02H01J63/06
    • A field emission light source device, comprising: cathode plate comprising substrate and cathode conductive layer disposed on surface of substrate, and anode plate comprising base formed from transparent ceramic material and anode conductive layer disposed on one surface of base, and insulating support member by which cathode plate and anode plate are integrally fixed, and vacuum-tight chamber formed with anode plate, cathode plate and insulating support member; anode conductive layer and the cathode plate are disposed opposite each other. Because of advantages of good electrical conductivity, high light transmittance, stable electron-impact resistance performance and uniform luminescence, using transparent ceramic as the base of the anode plate in the field emission light source device can increase electron beam excitation efficiency effectively, increase light extraction efficiency of the field emission light source device, and finally increase its luminous efficiency. A manufacturing method of the field emission light source device is also provided.
    • 一种场发射光源装置,包括:阴极板,包括设置在基板表面上的基板和阴极导电层,以及阳极板,其包括由透明陶瓷材料形成的基底和设置在基底的一个表面上的阳极导电层,以及绝缘支撑构件, 阴极板和阳极板一体固定,真空室形成阳极板,阴极板和绝缘支撑构件; 阳极导电层和阴极板彼此相对设置。 由于导电性好,透光率高,电子撞击性能稳定,发光均匀,采用透明陶瓷作为场致发射光源装置的阳极板底座,可有效提高电子束激发效率,增加光提取 场发射光源器件的效率,最终提高其发光效率。 还提供了场发射光源装置的制造方法。
    • 36. 发明申请
    • PREPARATION METHOD OF FLUORESCENT POWDER LAYER
    • 荧光粉层的制备方法
    • US20130112654A1
    • 2013-05-09
    • US13810058
    • 2010-07-14
    • Mingjie ZhouWenbo MaYugang Liu
    • Mingjie ZhouWenbo MaYugang Liu
    • C23F13/02B29D11/00
    • H05B33/14H01L33/501H01L33/505H01L2933/0041H05B33/10
    • A preparation method of the fluorescent powder layer (108, 208) is provided. The said preparation method is carried out as following steps: step 1, a fluorescent powder layer (102, 202) is coated on one surface of a flat transparent substrate (101, 201); step 2, the surface of a board (103, 203) is shaped into a curved surface (104, 204); step 3, the board (103, 203) of step 2 is arranged on the substrate (101, 201) coated with the fluorescent powder layer (102, 202) of step 1; the curved surface (104, 204) of the board (103, 203) faces the substrate (101, 201), and the fluorescent powder layer (102, 202) is sandwiched between the substrate (101, 201) and the board (103, 203); step 4, the substrate (101, 201) is softened by heating, a pressure is then applied to the board (103, 203) so that the fluorescent powder layer (102, 202) sandwiched between the substrate (101, 201) and the board (103, 203) forms the fluorescent powder layer (108, 208) having the same curved shape as the curved surface (104, 204) of the board (103, 203) by the pressure, and the fluorescent powder layer (108, 208) on the substrate (101, 201) is completed after cooling.
    • 提供了荧光粉层(108,208)的制备方法。 所述制备方法如下步骤:步骤1,在平坦的透明基材(101,201)的一个表面上涂布荧光粉末层(102,202); 步骤2,将板(103,203)的表面成形为弯曲表面(104,204); 步骤3,步骤2的板(103,203)布置在涂覆有步骤1的荧光粉层(102,202)的基板(101,201)上; 基板(103,203)的曲面(104,204)面向基板(101,201),荧光粉层(102,202)夹在基板(101,201)和基板(103)之间 ,203); 步骤4,通过加热软化基板(101,201),然后将压力施加到基板(103,203),使得夹在基板(101,201)和基板(101,201)之间的荧光粉末层(102,202) 板(103,203)通过压力形成具有与板(103,203)的弯曲表面(104,204)相同的弯曲形状的荧光粉末层(108,208),荧光粉末层(108,208) 208)在冷却后完成。
    • 38. 发明申请
    • METHOD FOR PRODUCING CORE-SHELL MAGNETIC ALLOY NANOPARTICLE
    • 生产核壳磁性合金纳米材料的方法
    • US20130084385A1
    • 2013-04-04
    • US13703311
    • 2010-06-13
    • Mingjie ZhouShuxin LuWenbo Ma
    • Mingjie ZhouShuxin LuWenbo Ma
    • H01F41/00
    • H01F41/00B22F9/24B22F2998/00C22C2202/02H01F1/0054B22F1/025B22F1/0018
    • A method for producing core-shell magnetic alloy nanoparticle, comprising: step 1, dissolving nickel compound to produce solution; step 2, adding surfactant into the solution; step 3, dissolving the first reducing agent to produce the first reducing solution; step 4, adding the first reducing solution into the solution obtained from step 2, obtaining nickel nano-collosol by stirring and aging; step 5, adding metallic compound into the nickel nano-collosol; step 6, dissolving the second reducing agent to produce the second reducing solution; step 7, adding the second reducing solution into the mixed solution obtained from step 5; step 8, allow the product to stand, then discarding the supernatant, redispersing in water or absolute ethyl alcohol to obtain the core-shell magnetic alloy nanoparticle using nickel as the core.
    • 一种制备核 - 壳磁性合金纳米颗粒的方法,包括:步骤1,将镍化合物溶解以产生溶液; 步骤2,向溶液中加入表面活性剂; 步骤3,溶解第一还原剂以产生第一还原溶液; 步骤4,将第一还原溶液加入到从步骤2获得的溶液中,通过搅拌和老化获得镍纳洛酮; 步骤5,向镍纳溶醇中加入金属化合物; 步骤6,溶解第二还原剂以产生第二还原溶液; 步骤7,将第二还原溶液加入从步骤5获得的混合溶液中; 步骤8,使产物静置,然后弃上清,再分散在水或无水乙醇中,得到以镍为核心的核 - 壳磁性合金纳米粒子。
    • 40. 发明申请
    • PREPARATION METHOD FOR COPPER OXIDE NANOWIRES
    • 铜氧化物纳米粒子的制备方法
    • US20130034652A1
    • 2013-02-07
    • US13640374
    • 2010-04-23
    • Mingjie ZhouPengrui ShaoWenbo Ma
    • Mingjie ZhouPengrui ShaoWenbo Ma
    • B05D5/12B82Y40/00B82Y30/00
    • C01G3/02B05D5/12B82Y30/00C01P2004/16C23C18/06H01J1/304H01J9/025
    • The disclosure provides a preparation method for copper oxide nanowires including following steps: step 01, a conductive layer as an electrode is prepared on a clean substrate, or a clean substrate with a conductive layer is provided directly. Step 02, copper powder is weighed up, and the copper powder is homogeneously mixed with organic carrier. Step 03, mixture prepared in step 02 is printed onto the clean substrate with a conductive layer. Step 04, the substrate after being processed by step 03 is sintered under atmosphere having oxygen, and finally cooled to obtain copper oxide nanowires. Adhesion between the copper oxide nanowires prepared in the present disclosure and the substrate is excellent, the copper oxide nanowires may substantially prepared uniformly in large area and under low temperature, technology flow of coating is decreased, a cost of manufacture is decreased, such that a promising method for bottleneck of commercialization process of the field emission device is provided.
    • 本发明提供了一种氧化铜纳米线的制备方法,包括以下步骤:步骤01,在清洁的基板上制备作为电极的导电层,或者直接提供具有导电层的清洁基板。 步骤02,称量铜粉,并将铜粉与有机载体均匀混合。 步骤03,将步骤02中制备的混合物用导电层印刷在干净的基材上。 步骤04,将通过步骤03处理的基板在具有氧气的气氛下烧结,最后冷却,得到氧化铜纳米线。 本公开制备的氧化铜纳米线与基板之间的粘附性优异,氧化铜纳米线可以在大面积和低温下均匀地均匀地制备,涂层的工艺流程减少,制造成本降低, 提供了现场排放装置商业化流程瓶颈的有前景的方法。