1) in-situ interfacial polymerization
原位界面聚合
1.
Preparation of polymer microcapsules as drug carriers by in-situ interfacial polymerization in inverse emulsion;
反相乳液原位界面聚合制备聚合物药物胶囊(英文)
2) interfacial polymerization
界面聚合
1.
Study on the preparation of microcapsule flame retardant by interfacial polymerization process;
界面聚合法制备微胶囊化阻燃剂的研究
2.
Preparation and capacitive performance of polyaniline nanofibers by interfacial polymerization;
聚苯胺纳米纤维的界面聚合法合成及电化学电容行为
3.
Preparation and performance of polyamide composite membrane ——Ⅰ.the influence of interfacial polymerization;
新型聚酰胺复合膜的制备及性能研究——Ⅰ.界面聚合工艺条件的影响
3) facial Synthesis
界面聚合
1.
Polybenzidine,polydiphenylamine and their copolymers were synthesized using facial synthesis method.
采用界面聚合法合成了聚联苯胺、聚二苯胺以及联苯二胺与二苯胺的共聚物。
2.
Intrinsic polybenzidine and the polybenzidine doped with different acids were synthesized directly by using facial synthesis method.
采用界面聚合法合成了本征态和樟脑磺酸、b-萘磺酸、盐酸掺及硫酸掺杂聚联苯胺。
4) interface polymerization
界面聚合
1.
Synthesis of porous phenolic resin microspheres through inverse miniemulsion droplet interface polymerization
反相细乳液液滴界面聚合法制备酚醛树脂多孔微球
2.
A ultra-low pressure reverse osmosis(RO)composite membrane with polysulfone as supporting layer,MPD and m-phenylenediamine as main polymerization monomers and multi additives was prepared by interface polymerization.
研究了以聚砜作为支撑层,间苯二胺和均苯三甲酰氯为主要聚合单体,并使用多种添加剂,经界面聚合制备超低压反渗透复合膜,探讨了超低压反渗透复合膜制备的成膜规律和主要影响因素:底膜支撑层、水相、有机相、添加剂的种类,聚合时间和热处理温度等。
3.
The technics of microcapsulization of the heat-sensitive dye, utilizing the interface polymerization are disclosed.
研究界面聚合法将热敏染料微肢囊化的工艺过程,通过制备工艺各因素对微胶囊粒径大小和粒径分布的影响,确定了界面聚合微胶囊化的最佳工艺条件,并利用此最佳工艺条件成功制备出粒径在0。
5) in situ polymerization
原位聚合
1.
Preparation of microcapsules for electrophoretic display via in situ polymerization of urea-formaldehyde;
一步原位聚合法制备电泳显示微胶囊的研究
2.
Preparation of microcapsules for E-ink via in situ polymerization of urea,melamine and formaldehyde
尿素/三聚氰胺/甲醛原位聚合制备微胶囊化电子墨水
3.
Unsaturated polyester resin(UP) /kaolinite intercalation nanocomposites were prepared by in situ polymerization through UP replacing DMSO in kaolinite/ DMSO intercalation usher,which was prepared by sonochemistry technique.
利用超声法制备了高岭土-DMSO插层复合物前驱体,采取二步取代,原位聚合制备了不饱和聚酯树脂/高岭土纳米复合材料,并用XRD、FT-IR等手段对材料结构进行了表征,研究了纳米复合材料的阻燃性能。
6) in-situ polymerization
原位聚合
1.
Apply of composite particles of methyl methacrylate and calcium sulphate with a core-shell microstructure prepared through in-situ polymerization;
原位聚合制备核壳结构甲基丙烯酸甲酯/硫酸钙复合粒子的应用
2.
Preparation of maleic anhydride-functionalized EPDM/PA6 blend as a thermoplastic elastomer by in-situ polymerization;
原位聚合法制备马来酸酐化EPDM/PA6共混型热塑性弹性体
3.
Study of Mechanical Properties of Polylactide/Hydroxyapatite Composites Prepared by In-situ Polymerization;
原位聚合PLA/HA复合材料的性能研究
补充资料:界面聚合
分子式:
CAS号:
性质:又称界面缩聚。两种高反应性单体分别溶于两种不互溶的溶剂中,并在两液相的界面处进行的不可逆缩聚反应。是合成缩聚物的一种方法。界面聚合对单体纯度和量的比要求不严,反应速度快,且产物分子量较高。但需采用高反应性单体,溶剂消耗量大,设备利用率低。可用于制高熔点聚酰胺和聚碳酸酯等。
CAS号:
性质:又称界面缩聚。两种高反应性单体分别溶于两种不互溶的溶剂中,并在两液相的界面处进行的不可逆缩聚反应。是合成缩聚物的一种方法。界面聚合对单体纯度和量的比要求不严,反应速度快,且产物分子量较高。但需采用高反应性单体,溶剂消耗量大,设备利用率低。可用于制高熔点聚酰胺和聚碳酸酯等。
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