1) polymeric nano/microspheres
高分子纳米微球
1.
Based on RAFT polymerization, in this thesis, some polymeric nano/microspheres were synthesized and stereoregular PMMA were prepared, which are summarized as the following:(1) The temperature-responsive chitosan-based nanoparticles were synthesized by free radical polymerization of N-isopropylacrylamide (NIPAM) at 60oC in the presence of RAFT-chitosan agent.
另一方面,高分子纳米微球具有独特的结构和尺寸效应,引起了人们极大的兴趣,通过改变其表面的官能团,赋予其特殊的表面功能,目前已广泛应用于催化剂,吸附剂,生物医学等领域。
2) Nano-Sized polymer spheres
纳米高分子微球
3) magnetic polymer nanospheres
磁性高分子纳米球
1.
The details are described as below:Firstly,the inorganic magnetic particles are the key factors in influencing the properties of magnetic polymer nanospheres.
本文采用改进的一步细乳液共聚技术,制备出具有良好分散性、粒径分布范围窄、表面带有丰富官能团、高磁含量的超顺磁性高分子纳米球,并在磁性纳米球表面固载组氨酸,开展普通羰基铼的初步模拟标记实验。
5) nanosphere
纳米微球
1.
Studies on cetyl-chitosan nanosphere as carriers for paclitaxel;
十六烷基壳聚糖纳米微球负载紫杉醇的研究
2.
Preparation and Characterization of PS/TiO2 Composite Nanospheres;
PS/TiO_2复合纳米微球的制备和结构表征
3.
Study on Encapsulation of Plasmid DNA in Poly(Ethylene Glycol)-Poly(Benzyl L-Glutamate) Copolymer Nanospheres and its Characteristics in Vitro;
转基因载体聚乙二醇-聚谷氨酸纳米微球的制备
6) nanoparticle
纳米微球
1.
The Preparation of Berbamine-paclitaxel Nanoparticles and Evaluation of Its Synergistic Antitumor Effect in Vitro
小檗胺与紫杉醇纳米微球的构建及其体外协同抑瘤效应评价
2.
Preparation and evaluation of alginate nanoparticle simultaneous delivery of doxorubicin and Tf antibody
人转铁蛋白修饰海藻酸钠载阿霉素纳米微球的制备与表征
3.
The new approach for the preparation of the MAF/PCL micelles by self-assembly of a core-shell structure in aqueous solution with PFA chain fragment and PCL as the core and PAA chain fragment in MAF to form complex nanosize micelles and can be further crosslinked to get core-shell structure nanoparticles.
将MAF与可生物降解均聚物聚己内酯(PCL)在水溶液中进行自组装,形成以MAF中PFA链段与PCL为核、MAF中PAA链段为壳的核壳结构复合纳米胶束,进一步对PAA壳进行化学交联,最终得到具有核壳结构的复合纳米微球。
补充资料:高分子微球
分子式:
CAS号:
性质:直径0.1~10μm的聚合物微小球粒。可用乳液聚合或悬浮聚合及高分子溶液喷雾除去溶剂而得。制法不同,表面构造也不相同,具有很大的比表面,应用很广。医学上可用于制备诊断用试剂、细胞分离材料、细胞培养基等,在信息材料领域可作液晶间隔基材,还用作高速液相色谱的柱填料等。
CAS号:
性质:直径0.1~10μm的聚合物微小球粒。可用乳液聚合或悬浮聚合及高分子溶液喷雾除去溶剂而得。制法不同,表面构造也不相同,具有很大的比表面,应用很广。医学上可用于制备诊断用试剂、细胞分离材料、细胞培养基等,在信息材料领域可作液晶间隔基材,还用作高速液相色谱的柱填料等。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条