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    • 1. 发明授权
    • Sol-gel phase-reversible hydrogel templates and uses thereof
    • 溶胶 - 凝胶相可逆水凝胶模板及其用途
    • US08951567B2
    • 2015-02-10
    • US12286147
    • 2008-09-27
    • Kinam ParkGhanashyam AcharyaHaesun Park
    • Kinam ParkGhanashyam AcharyaHaesun Park
    • A61K9/14A61K9/50A61K31/00B82B1/00B82B3/00
    • A61K9/1682A61K9/1647A61K9/5031A61K9/5089A61K31/00Y10S977/773Y10S977/887Y10S977/89Y10S977/906
    • Discrete microstructures of predefined size and shape are prepared using sol-gel phase-reversible hydrogel templates. An aqueous solution of hydrogel-forming material is covered onto a microfabricated silicon wafer master template having predefined microfeatures, such as pillars. A hydrogel template is formed, usually by lowering the temperature, and the formed hydrogel template is peeled away from the silicon master template. The wells of predefined size and shape on the hydrogel template are filled with a solution or a paste of a water-insoluble polymer, and the solvent is removed to form solid structures. The formed microstructures are released from the hydrogel template by simply melting the hydrogel template in water. The microstructures are collected by centrifugation. The microstructures fabricated by this method exhibit pre-defined size and shape that exactly correspond to the microwells of the hydrogel template. The method of preparing microstructures based on hydrogel templates is simple and can easily produce large quantities of the microstructures.
    • 使用溶胶 - 凝胶相可逆水凝胶模板制备预定尺寸和形状的离散微结构。 将水凝胶形成材料的水溶液覆盖在具有预定义的微特征(例如柱)的微制造硅晶片主模板上。 通常通过降低温度形成水凝胶模板,并将形成的水凝胶模板从硅主模板剥离。 在水凝胶模板上预定尺寸和形状的孔填充有水不溶性聚合物的溶液或糊剂,并除去溶剂以形成固体结构。 通过在水中简单地熔化水凝胶模板,将形成的微结构从水凝胶模板中释放出来。 通过离心收集微结构。 通过该方法制造的微结构显示出与水凝胶模板的微孔完全对应的预定义的尺寸和形状。 基于水凝胶模板制备微结构的方法简单,容易产生大量微结构。
    • 4. 发明申请
    • Sol-Gel phase-reversible hydrogel templates and uses thereof
    • 溶胶 - 凝胶相可逆水凝胶模板及其用途
    • US20090136583A1
    • 2009-05-28
    • US12286147
    • 2008-09-27
    • Kinam ParkGhanashyam AcharyaHaesun Park
    • Kinam ParkGhanashyam AcharyaHaesun Park
    • A61K9/14C40B50/14B05D1/00B82B1/00B82B3/00
    • A61K9/1682A61K9/1647A61K9/5031A61K9/5089A61K31/00Y10S977/773Y10S977/887Y10S977/89Y10S977/906
    • Discrete microstructures of predefined size and shape are prepared using sol-gel phase-reversible hydrogel templates. An aqueous solution of hydrogel-forming material is covered onto a microfabricated silicon wafer master template having predefined microfeatures, such as pillars. A hydrogel template is formed, usually by lowering the temperature, and the formed hydrogel template is peeled away from the silicon master template. The wells of predefined size and shape on the hydrogel template are filled with a solution or a paste of a water-insoluble polymer, and the solvent is removed to form solid structures. The formed microstructures are released from the hydrogel template by simply melting the hydrogel template in water. The microstructures are collected by centrifugation. The microstructures fabricated by this method exhibit pre-defined size and shape that exactly correspond to the microwells of the hydrogel template. The method of preparing microstructures based on hydrogel templates is simple and can easily produce large quantities of the microstructures.
    • 使用溶胶 - 凝胶相可逆水凝胶模板制备预定尺寸和形状的离散微结构。 将水凝胶形成材料的水溶液覆盖在具有预定义的微特征(例如柱)的微制造硅晶片主模板上。 通常通过降低温度形成水凝胶模板,并将形成的水凝胶模板从硅主模板剥离。 在水凝胶模板上预定尺寸和形状的孔填充有水不溶性聚合物的溶液或糊剂,并除去溶剂以形成固体结构。 通过在水中简单地熔化水凝胶模板,将形成的微结构从水凝胶模板中释放出来。 通过离心收集微结构。 通过该方法制造的微结构显示出与水凝胶模板的微孔完全对应的预定义的尺寸和形状。 基于水凝胶模板制备微结构的方法简单,容易产生大量微结构。
    • 5. 发明授权
    • Hydrogel composites and superporous hydrogel composites having fast swelling, high mechanical strength, and superabsorbent properties
    • 水凝胶复合材料和具有快速溶胀,高机械强度和超吸收性能的多孔水凝胶复合材料
    • US06271278B1
    • 2001-08-07
    • US08855499
    • 1997-05-13
    • Kinam ParkJun ChenHaesun Park
    • Kinam ParkJun ChenHaesun Park
    • C08F3604
    • A61L15/60C08F251/00C08F291/00
    • A superporous hydrogel composite is formed by polymerizing one or more ethylenically-unsaturated monomers, and a multiolefinic crosslinking agent, in the presence of particles of a disintegrant and a blowing agent. The disintegrant, which rapidly absorbs water, serves to greatly increase the mechanical strength of the superporous hydrogel and significantly shorten the time required to absorb water and swell. Superporous hydrogel composites prepared by this method have an average pore size in the range of 10 &mgr;m to 3,000 &mgr;m. Preferred particles of disintegrant include natural and synthetic charged polymers, such as crosslinked sodium carboxymethylcellulose, crosslinked sodium starch glycolate, and crosslinked polyvinylpyrrolidone. The blowing agent is preferably a compound that releases gas bubbles upon acidification, such as NaHCO3. Improved hydrogel composites formed without a blowing agent are also provided.
    • 通过在崩解剂和发泡剂的颗粒存在下聚合一种或多种烯属不饱和单体和多烯属交联剂来形成多孔水凝胶复合物。 迅速吸收水分的崩解剂大大增加了多孔水凝胶的机械强度,显着缩短了吸收水分和膨胀所需的时间。 通过该方法制备的多孔水凝胶复合材料的平均孔径在10〜3000μm的范围内。 优选的崩解剂颗粒包括天然和合成的带电聚合物,例如交联的羧甲基纤维素钠,交联的羟基乙酸淀粉钠和交联的聚乙烯吡咯烷酮。 发泡剂优选是在酸化时释放气泡的化合物,例如NaHCO 3。 还提供了没有发泡剂形成的改进的水凝胶复合材料。