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    • 4. 发明申请
    • In situ synthesis of composite nanoscale particles
    • 复合纳米粒子的原位合成
    • US20090071489A9
    • 2009-03-19
    • US10972204
    • 2004-10-25
    • Sarojini DeeviRangaraj SundarYezdi Pithawalla
    • Sarojini DeeviRangaraj SundarYezdi Pithawalla
    • A24D3/04
    • A24D3/06A24B15/28A24B15/282A24B15/286A24B15/287A24B15/288A24D1/02A24D1/18A24D3/16B01D53/62B01D53/94B82Y30/00
    • A method of making composite nanoscale particles comprising subjecting a starting material to laser energy so as to form a vapor and condensing the vapor so as to form the composite nanoscale particles, wherein said composite nanoscale particles comprise a first metal and/or a first metal oxide incorporated in nanoscale particles of an oxide of a second metal, the first metal being different than the second metal. The starting material can comprise first and second metals or compounds of the first and second metals. The composite nanoscale particles can be formed in a reaction chamber wherein a temperature gradient is provided. The atmosphere in the chamber can be an inert atmosphere comprising argon or a reactive atmosphere comprising oxygen. The composite nanoscale particles are useful for low-temperature and near-ambient temperature catalysis. The composite nanoscale particles can be incorporated in the tobacco cut filler, cigarette paper and/or cigarette filter material of a cigarette to catalyze the oxidation of carbon monoxide to carbon dioxide.
    • 一种制备复合纳米尺寸颗粒的方法,包括使起始材料经受激光能量以形成蒸气并使蒸气冷凝以形成复合纳米级颗粒,其中所述复合纳米级颗粒包含第一金属和/或第一金属氧化物 掺入第二金属的氧化物的纳米级颗粒中,第一金属不同于第二金属。 起始材料可以包括第一和第二金属或第一和第二金属的化合物。 复合纳米级颗粒可以在其中提供温度梯度的反应室中形成。 室中的气氛可以是包含氩气或包含氧的反应性气氛的惰性气氛。 复合纳米级颗粒可用于低温和近环境温度的催化。 复合纳米尺寸颗粒可以并入香烟的烟丝切割填料,香烟纸和/或卷烟过滤材料中,以催化一氧化碳氧化成二氧化碳。
    • 7. 发明申请
    • In situ synthesis of composite nanoscale particles
    • 复合纳米粒子的原位合成
    • US20050166934A1
    • 2005-08-04
    • US10972204
    • 2004-10-25
    • Sarojini DeeviRangaraj SundarYezdi Pithawalla
    • Sarojini DeeviRangaraj SundarYezdi Pithawalla
    • A24B15/28A24D3/04A24D3/16
    • A24D3/06A24B15/28A24B15/282A24B15/286A24B15/287A24B15/288A24D1/02A24D1/18A24D3/16B01D53/62B01D53/94B82Y30/00
    • A method of making composite nanoscale particles comprising subjecting a starting material to laser energy so as to form a vapor and condensing the vapor so as to form the composite nanoscale particles, wherein said composite nanoscale particles comprise a first metal and/or a first metal oxide incorporated in nanoscale particles of an oxide of a second metal, the first metal being different than the second metal. The starting material can comprise first and second metals or compounds of the first and second metals. The composite nanoscale particles can be formed in a reaction chamber wherein a temperature gradient is provided. The atmosphere in the chamber can be an inert atmosphere comprising argon or a reactive atmosphere comprising oxygen. The composite nanoscale particles are useful for low-temperature and near-ambient temperature catalysis. The composite nanoscale particles can be incorporated in the tobacco cut filler, cigarette paper and/or cigarette filter material of a cigarette to catalyze the oxidation of carbon monoxide to carbon dioxide.
    • 一种制备复合纳米尺寸颗粒的方法,包括使起始材料经受激光能量以形成蒸气并使蒸气冷凝以形成复合纳米级颗粒,其中所述复合纳米级颗粒包含第一金属和/或第一金属氧化物 掺入第二金属的氧化物的纳米级颗粒中,第一金属不同于第二金属。 起始材料可以包括第一和第二金属或第一和第二金属的化合物。 复合纳米级颗粒可以在其中提供温度梯度的反应室中形成。 室中的气氛可以是包含氩气或包含氧的反应性气氛的惰性气氛。 复合纳米级颗粒可用于低温和近环境温度的催化。 复合纳米尺寸颗粒可以并入香烟的烟丝切割填料,香烟纸和/或卷烟过滤材料中,以催化一氧化碳氧化成二氧化碳。