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    • 6. 发明申请
    • Systems and methods of forming particles
    • 形成颗粒的系统和方法
    • US20070054119A1
    • 2007-03-08
    • US11368263
    • 2006-03-03
    • Piotr GarsteckiDouglas WeibelIrina GitlinShoji TakeuchiShengqing XuZhihong NieMin SeoPatrick LewisEugenia KumachevaHoward StoneGeorge Whitesides
    • Piotr GarsteckiDouglas WeibelIrina GitlinShoji TakeuchiShengqing XuZhihong NieMin SeoPatrick LewisEugenia KumachevaHoward StoneGeorge Whitesides
    • B32B1/00
    • B01J19/0093B01F3/0807B01F13/0062B01J19/06B01J2219/00873B22F1/0007B22F9/06Y10T428/2982
    • The present invention generally relates to systems and methods of forming particles and, in certain aspects, to systems and methods of forming particles that are substantially monodisperse. Microfluidic systems and techniques for forming such particles are provided, for instance, particles may be formed using gellation, solidification, and/or chemical reactions such as cross-linking, polymerization, and/or interfacial polymerization reactions. In one aspect, the present invention is directed to a plurality of particles having an average dimension of less than about 500 micrometers and a distribution of dimensions such that no more than about 5% of the particles have a dimension greater than about 10% of the average dimension, which can be made via microfluidic systems. In one set of embodiments, at least some of the particles may comprise a metal, and in certain embodiments, at least some of the particles may comprise a magnetizable material. In another set of embodiments, at least some of the particles may be porous. In some embodiments, the invention includes non-spherical particles. Non-spherical particles may be formed, for example, by urging a fluidic droplet into a channel having a smallest dimension that is smaller than the diameter of a perfect mathematical sphere having a volume of the droplet, and solidifying the droplet, and/or by exposing at least a portion of a plurality of particles to an agent able to remove at least a portion of the particles.
    • 本发明一般涉及形成颗粒的系统和方法,并且在某些方面涉及形成基本上单分散的颗粒的体系和方法。 提供了用于形成这种颗粒的微流体系统和技术,例如,可以使用凝胶化,固化和/或化学反应如交联,聚合和/或界面聚合反应形成颗粒。 在一个方面,本发明涉及平均尺寸小于约500微米的多个颗粒和尺寸分布,使得不超过约5%的颗粒具有大于所述颗粒的约10%的尺寸 平均尺寸,可以通过微流体系统进行。 在一组实施方案中,至少一些颗粒可以包含金属,并且在某些实施方案中,至少一些颗粒可以包含可磁化材料。 在另一组实施方案中,至少一些颗粒可以是多孔的。 在一些实施方案中,本发明包括非球形颗粒。 非球形颗粒可以例如通过将流体液滴推入具有小于具有液滴体积的完美数学球体的直径的最小尺寸的通道,和/或通过 将多个颗粒的至少一部分暴露于能除去至少一部分颗粒的试剂。