对近几年超支化聚合物的合成与应用进行了综述。
The recent progresses in synthesis and applications of hyperbranched polymers were reviewed.
对近几年超支化聚合物的应用研究进展进行了综述。
The recent advance in application of hyperbranched polymer was reviewed.
本发明涉及一种超支化聚合物凝胶固化酵母载体的制备方法。
This invention relates to a hyperbranched polymer gelatin solidify yeast carrier preparation method.
超支化聚合物是一种具有独特结构和性能的聚合物,应用前景广阔。
Due to their unique structure and properties, hyperbranched polymers have a wide range of potential applications.
超支化聚合物的玻璃化转变温度随支化点间链段刚性的增大而增大。
The glass transition temperature of hyperbranched polymers rises with the increase of the rigidity of chain segments.
超支化聚合物的玻璃化转变温度随中心核可反应官能度的增加而增大。
The glass transition temperature of hyperbranched polymers rises with the increase of degree of functionality of central core.
超支化聚合物的结晶能力由于长链端烷烃的有序排列而得到明显提高。
The improvement of crystallization properties can by realized by the ordered arrangement of long alkyl chains.
本文对超支化聚合物的合成方法进行了总结,并对其性能和应用作了评述。
In this paper, the synthetic methods, properties and application of these polymers are reviewed.
超支化聚合物的合成反应主要有缩聚反应、加成反应、开环聚合、接枝反应等。
Synthetic reactions of hyperbranched polymers included condensation reaction, addition reaction, ring - opening reaction, grafting reaction, etc.
超支化聚合物在合成嵌段共聚物、涂料、药物缓释剂等方面具有广泛的应用前景。
The polymers had good applied prospects in synthesizing block copolymers, coating, slow releasing agent for medicine, etc.
介绍了超支化聚合物结构特征,独特的溶液和本体性能,以及影响这些性能的主要因素。
The structure character of hyperbranched polymer, its unique solution and bulk property, and the main affect factors on the performance, were introduced.
因此,该类超支化聚合物材料在药物控释,基因转染和组织工程等领域具有实用价值。
Therefore, the hyperbranched polyphosphate has utility values in the fields of controlled release medicament, gene transfection, tissue engineering, etc.
超支化聚合物由于具有高度独特的结构特征、合成方法和应用领域而引起了聚合物科学家们浓厚的兴趣。
Hyperbranched polymers have received more and more research interest from polymer scientists, because of their unique structural characteristics, synthetic methods as well as application fields.
超支化聚合物的玻璃化转变温度随分子量的增加先增大,当分子量足够大时玻璃化转变温度不再受其影响。
The glass transition temperature of hyperbranched polymers rises with the increase of molecular weight. When the relative molecular mass was high enough it remained the same.
由苯-1,2,4-三羧酸-1,2-酐和羟乙基哌嗪合成酰胺键、叔氨和酯键交替排列的水溶性超支化聚合物。
Synthesis of Water-soluble Hyperbranched Polymer with Alternating Amido, Tertiary Amino and Ester Units from Benzene-1,2,4-tricarboxylic Acid-1,2-anhydride and N-(2-Hydroxyethyl)piperazine.
本文介绍了端羟基超支化聚合物的研究进展,合成方法及在各个领域的应用,并展望了其在皮革工业中的应用前景。
The researching progress, synthesis and applications of hyperbranched polymer with terminal hydroxyl are introduced, and the application foreground of leather industry is forecasted.
相较类似的线性聚合物而言,超支化聚合物在拓扑结构上与树枝状大分子更为相似,只是其支化度相对来说要低一些。
As compared to their linear analogous, hyperbranched polymers have drawn much attention due to their similar topology structures and properties comparing with dendrimers.
实验结果表明:超支化聚合物的加入改善了PP的染色性,当超支化聚合物的质量分数为8%时,PP的上染率达到70%。
It was found that the hyperbranched polymer improved the dyeing property of PP with dye-uptake up to 70% when the content of hyperbranched polymer was 8%.
通过原子转移自由基聚合可以方便地合成各种结构的模型聚合物,包括嵌段、接枝、星形及超支化共聚物等。
The technique of ATRP has been used to synthesize the model polymer with various structure, block copolymer, graft copolymer, star-shaped polymer and hyperbranched polymer.
超支化共轭聚合物由子其所具有的良好的非线性光学特性,在功能高分子领域具有广泛的应用前景。
Based on the excellent nonlinear optical properties of hyperbranched conjugated polymer, those polymers are attracting more and more attention as functional polymer materials.
介绍了超支化有机硅的合成方法,并根据其分子结构提出了这类聚合物在皮革化工领域可能的用途和前景。
The synthesis method and the special structure, as well as the possible application of HOP in leather industry was also introduced.
该聚合物的结构特征是含有硅原子和芳炔基团的超支化结构。
The polymer is structurally characterized in that the polymer is a hyper-branched structure containing silicone atoms and aryne group.
该聚合物的结构特征是含有硅原子和芳炔基团的超支化结构。
The polymer is structurally characterized in that the polymer is a hyper-branched structure containing silicone atoms and aryne group.
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