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    • 3. 发明申请
    • Directly fabricated nanoparticles for Raman scattering
    • 用于拉曼散射的直接纳米颗粒
    • US20110250464A1
    • 2011-10-13
    • US13066248
    • 2011-04-08
    • Robert J. WilsonJung-Sub WiShan X. WangEdward S. BarnardMark L. BrongersmaMary Tang
    • Robert J. WilsonJung-Sub WiShan X. WangEdward S. BarnardMark L. BrongersmaMary Tang
    • B22F1/00
    • B22F1/0018B22F7/08B22F2001/0037B82Y30/00
    • A Raman-active nanoparticle is provided that includes a dish-shape plasmonically active metal base, and a plasmonically active metal pillar disposed on the plasmonically active metal base, where the plasmonically active metal pillar is disposed within the dish-shape plasmonically active metal base and normal to a bottom of the dish-shape plasmonically active metal base, where a circular gap is disposed between the dish-shape plasmonically active metal pillar and inner walls of the dish-shape plasmonically active metal base. In one embodiment a Raman-active nanoparticle is provided that includes a dish-shape base having a dielectric material, an electrically conductive layer disposed on the inner surface of the dish-shape base, and an electrically conductive pillar disposed on the conductive layer, and within the dish-shape and perpendicular to a bottom of the dish-shape base, where a circular gap is disposed between the conductive pillar and inner walls of the dish-shape base.
    • 提供了一种拉曼活性纳米颗粒,其包括盘状等离子体活性金属碱和设置在等离子体活性金属基体上的等离子体活性金属柱,其中等离子体活性金属柱设置在盘状等离子体活性金属基质内, 垂直于盘形等离子体活性金属基底的底部,其中盘形等离子体活性金属柱和盘形等离子体活性金属基底的内壁之间设置有圆形间隙。 在一个实施方案中,提供了拉曼活性纳米颗粒,其包括具有介电材料的盘形基底,设置在盘形基底的内表面上的导电层和设置在导电层上的导电柱,以及 在碟形基底中的垂直于盘形基底的底部,其中圆形间隙设置在盘形基底的导电柱和内壁之间。
    • 4. 发明授权
    • Directly fabricated nanoparticles for raman scattering
    • 用于拉曼散射的直接制造的纳米颗粒
    • US08568878B2
    • 2013-10-29
    • US13066248
    • 2011-04-08
    • Robert J. WilsonJung-Sub WiShan X. WangEdward S. BarnardMark L. BrongersmaMary Tang
    • Robert J. WilsonJung-Sub WiShan X. WangEdward S. BarnardMark L. BrongersmaMary Tang
    • B22F1/00G01N21/65
    • B22F1/0018B22F7/08B22F2001/0037B82Y30/00
    • A Raman-active nanoparticle is provided that includes a dish-shape plasmonically active metal base, and a plasmonically active metal pillar disposed on the plasmonically active metal base, where the plasmonically active metal pillar is disposed within the dish-shape plasmonically active metal base and normal to a bottom of the dish-shape plasmonically active metal base, where a circular gap is disposed between the dish-shape plasmonically active metal pillar and inner walls of the dish-shape plasmonically active metal base. In one embodiment a Raman-active nanoparticle is provided that includes a dish-shape base having a dielectric material, an electrically conductive layer disposed on the inner surface of the dish-shape base, and an electrically conductive pillar disposed on the conductive layer, and within the dish-shape and perpendicular to a bottom of the dish-shape base, where a circular gap is disposed between the conductive pillar and inner walls of the dish-shape base.
    • 提供了一种拉曼活性纳米颗粒,其包括盘状等离子体活性金属碱和设置在等离子体活性金属基体上的等离子体活性金属柱,其中等离子体活性金属柱设置在盘状等离子体活性金属基质内, 垂直于盘形等离子体活性金属基底的底部,其中盘形等离子体活性金属柱和盘形等离子体活性金属基底的内壁之间设置有圆形间隙。 在一个实施方案中,提供了拉曼活性纳米颗粒,其包括具有介电材料的盘形基底,设置在盘形基底的内表面上的导电层和设置在导电层上的导电柱,以及 在碟形基底中的垂直于盘形基底的底部,其中圆形间隙设置在盘形基底的导电柱和内壁之间。
    • 9. 发明授权
    • Method for bonding a pocket blank to a garment portion
    • 用于将袋坯料粘合到衣服部分的方法
    • US4316756A
    • 1982-02-23
    • US178469
    • 1980-08-15
    • Robert J. Wilson
    • Robert J. Wilson
    • A41D27/20
    • A41D27/204Y10T156/1051Y10T156/1054Y10T156/1077Y10T156/1092Y10T156/125Y10T156/1339
    • The method of bonding a pocket blank to a garment portion of the present invention comprises the steps of providing a pocket blank at a first station. The pocket blank is conveyed to a second station. The bottom and side margin tabs of the pocket blank are folded over the pocket body. Heat and pressure are utilized to apply a strip of heat fusing adhesive to a top margin tab of the pocket blank. Heat and pressure are also applied to the folded over side and bottom margin tabs to crease the same. Next, the top margin tab bearing the adhesive is folded over and heat and pressure are applied to bond the same to the pocket body. Heat and pressure are applied to fuse strips of the heat fusing adhesive to the side and bottom margin tabs of the pocket blank. The prepared pocket blank is then conveyed along the path of travel to a third station where an overlaid garment portion is heat and pressure bonded to the prepared pocket blank.A preferred apparatus for carrying out the method of bonding a pocket blank to a garment portion of the present invention is also set forth.
    • 将口袋坯料粘合到本发明的衣服部分的方法包括在第一工位处提供袋坯料的步骤。 袋坯被传送到第二站。 口袋坯料的底部和侧边缘突出部折叠在口袋主体上。 使用热和压力将热熔粘合剂条施加到口袋坯料的顶部边缘片。 热和压力也被施加到折叠的侧面和底部边缘突出部上以折皱。 接下来,将带有粘合剂的顶部边缘折片折叠起来,并施加热和压力以将其粘合到口袋主体。 施加热和压力以将热熔粘合剂的条带熔合到袋坯的侧面和底部边缘。 然后将准备好的袋坯料沿着行进路径传送到第三工位,其中重叠的衣服部分被加热并且压力结合到所制备的袋坯料上。 还提出了一种用于执行将口袋坯料粘合到本发明的衣服部分的方法的优选装置。