CHROMATOGRAPHY OF POLYOLEFIN POLYMERS
    1.
    发明申请
    CHROMATOGRAPHY OF POLYOLEFIN POLYMERS 有权
    聚烯烃聚合物的色谱法

    公开(公告)号:US20120227469A1

    公开(公告)日:2012-09-13

    申请号:US13512387

    申请日:2010-12-21

    IPC分类号: G01N30/06

    摘要: The invention provides a method for one-dimensional chromatography of a polyolefin polymer, comprising introducing a solution of the polyolefin polymer into a liquid flowing through a liquid chromatography stationary phase, the liquid chromatography stationary phase comprising graphitic carbon, and wherein the polyolefin polymer emerging from the liquid chromatography stationary phase has a retention factor greater than zero, and wherein the solution introduced into the liquid chromatography stationary phase is subjected to a temperature gradient, and/or the solution is subjected to a solvent gradient. The invention also provides a method for multi-dimensional chromatography of a polyolefin polymer, comprising introducing a solution of the polyolefin polymer into a liquid flowing through a first liquid chromatography stationary phase or a field flow fractionation device, and subsequently flowing the solution through a second liquid chromatography stationary phase, the second liquid chromatography stationary phase comprising graphitic carbon, and wherein the polyolefin polymer emerging from the liquid chromatography stationary phase has a retention factor greater than zero. The invention also provides an apparatus for polyolefin polymer chromatography, comprising a liquid chromatography stationary phase, the liquid chromatography stationary phase comprising graphitic carbon and at least one inert filler.

    摘要翻译: 本发明提供了聚烯烃聚合物的一维色谱法的方法,包括将聚烯烃聚合物的溶液引入流过液相色谱固定相的液体中,液相色谱固定相包含石墨碳,其中聚烯烃聚合物从 液相色谱固定相具有大于零的保留因子,其中引入液相色谱固定相的溶液经受温度梯度,和/或溶液经受溶剂梯度。 本发明还提供了聚烯烃聚合物的多维色谱法的方法,包括将聚烯烃聚合物的溶液引入流过第一液相色谱固定相或场流分离装置的液体中,随后使溶液流过第二 液相色谱固定相,第二液相色谱固定相包含石墨碳,其中从液相色谱固定相中出现的聚烯烃聚合物具有大于零的保留因子。 本发明还提供了一种用于聚烯烃聚合物色谱的装置,包括液相色谱固定相,液相色谱固定相包含石墨碳和至少一种惰性填料。

    Molecular topological fractionation of macromolecules
    5.
    发明授权
    Molecular topological fractionation of macromolecules 有权
    大分子的分子拓扑分馏

    公开(公告)号:US07416698B2

    公开(公告)日:2008-08-26

    申请号:US10510060

    申请日:2003-05-14

    IPC分类号: G01N30/02

    摘要: A process for characterizing a sample comprising a population of linear macromolecules of interest (104) and a population of long chain branched macromolecules of interest (103), the process including four steps. The first step is to provide a flow through separating medium (100) and a liquid eluant (101) in which the macromolecules of interest dissolve, the separating medium defining flow through channels (102), the eluant flow rate and the average diameter of the channels being in a range so that the linear macromolecules of interest elute before the long chain branched macromolecules of interest (105) (106). The second step is to introduce a sample into the liquid eluant. The third step is to flow the liquid eluant under pressure through the channels (102) of the separating medium (100). The fourth step is to differentiate the linear macromolecules of interest (104) from the long chain branched macromolecules of interest (103) based on their successive elution volumes established in the third step such as by determining the refractive index of the successive elution volumes or by subjecting the successive elution volumes to size exclusion chromatography.

    摘要翻译: 用于表征包含一组目标线性大分子(104)和一组感兴趣的长链支化大分子(103)的样品的方法,该方法包括四个步骤。 第一步是提供流过分离介质(100)和其中感兴趣的大分子的液体洗脱液(101)的流动,分离介质限定流过通道(102),洗脱液流速和平均直径 通道在一定范围内,使得目标线性大分子在感兴趣的长链支化大分子(105)(106)之前洗脱。 第二步是将样品引入液体洗脱液。 第三步骤是使液体洗脱液在压力下流过分离介质(100)的通道(102)。 第四步是基于其在第三步骤中建立的连续洗脱体积,例如通过确定连续洗脱体积的折射率或通过测定连续洗脱体积的折射率,或通过测定连续洗脱体积的折射率来区分感兴趣的线性大分子(104)与目标长链支化大分子(103) 对连续的洗脱体积进行排阻层析。