合成双分子膜的传统两亲分子设计是基于疏水尾链间相互作用的考虑。
The molecular design of conventional amphiphiles of synthetic bilayer membranes was based on the consideration of hydrophobic chain interaction.
在溶剂中,两亲分子可以形成多种缔合结构,如胶束、囊泡、溶致液晶等。
The self-assembled structures of amphiphile molecules in solvents, such as micelle, vesicle, and lyotropic liquid crystalline phase (LLC) etc.
蛋白质是两亲大分子,对材料表面具有亲和性,易被吸附并污染材料。
Proteins are amphiphilic molecules with affinity to material surfaces, thus are easily adsorbed on material surfaces and cause biofouling.
聚合物胶束与泡囊均系由两亲性分子在水中自组装形成的药物载体。
Polymersome micelles and niosomes are the medication vehicle composed by amphiphilic block copolymer self-assembling in water.
分子兼有亲水的和疏水的两个基团,叫做两性的或两亲的。
Molecules with both hydrophilic and hydrophobic groups are called amphipathic or amphiphilic.
结论两亲磁性高分子微球可作为分离人血清白蛋白的有效手段。
CONCLUSION Amphiphilic magnetic polymer microspheres were an effective means for the separation of HSA.
蛋白质是两亲大分子,对材料表面具有亲和性,易吸附在材料表面上,造成污染。
Proteins are amphiphilic molecules with affinity to material surfaces, thus are easily adsorbed on material surfaces, which causes biofouling issue.
聚合物胶团一般由两亲性共聚物分子在水性介质中自聚集而成,是一种具有广阔前景的新型靶向给药系统。
Amphiphilic block copolymer could self-aggregate into micelles in an aqueous medium, which emerged as novel targeting drug delivery system with broad prospect.
该制剂适用药物范围广,尤其适合两亲性差或生物大分子药物。
The preparation has wide application range of drugs and is particularly suitable for drugs with poor amphipathicity or the biological macromolecules.
两亲性聚合物自组装成纳米粒子,用作憎水性小分子药物载体是最近几年研究的热点。
In recent years, much attention has been devoted to the nanovehicle self-assembled from amphiphilic copolymer, which is used for drug carrier.
依照文献以d -缬氨酸为手性源合成一手性阴离子两亲性小分子化合物。
A chiral anionic amphiphilic compound derived from D-valine was synthesized according to the literature.
依照文献以d -缬氨酸为手性源合成一手性阴离子两亲性小分子化合物。
A chiral anionic amphiphilic compound derived from D-valine was synthesized according to the literature.
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