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The advanced synthetic modifications and applications of multifunctional PAMAM dendritic composites
Reaction Chemistry & Engineering ( IF 3.9 ) Pub Date : 2021-10-25 , DOI: 10.1039/d1re00074h
Ramkrishna Y. Patle 1, 2 , Jyotsna S. Meshram 2
Affiliation  

The profound advances in dendrimer chemistry have led to new horizons in polymer science. Moreover, this has promisingly uncovered opportunities to develop new versatile polymers in the form of poly(amidoamine) dendrimer hybrids to utilize their intrinsic distinctive properties. The unique three-dimensional globular shape, highly branched structure, monodispersity, controlled topology, nanoarchitecture, and massive number of cavities have spurred polymer researchers to construct new poly(amidoamine) dendrimer composites using organic and inorganic materials. Thus, to meet the prospective needs of modern scientific research, significant efforts have been made to functionalize PAMAM, encompassing applications in the biomedical and non-biomedical areas. This review article attempts to consolidate the research work to date relating to the synthesis of organic/inorganic hybrids of poly(amidoamine) dendrimers and their potential applications in the biomedical field, controlled agrochemical release, catalysis, wastewater treatment, imaging, biosensors, etc.

中文翻译:

多功能PAMAM树枝状复合材料的先进合成改性及应用

树枝状大分子化学的巨大进步为聚合物科学开辟了新的视野。此外,这很有希望地发现了以聚(酰氨基胺)树枝状大分子杂化物形式开发新型多功能聚合物的机会,以利用其固有的独特特性。独特的三维球状、高度支化的结构、单分散性、可控的拓扑结构、纳米结构和大量的空腔促使聚合物研究人员使用有机和无机材料构建新的聚(酰胺胺)树枝状聚合物复合材料。因此,为了满足现代科学研究的预期需求,已经做出了重大努力来使 PAMAM 功能化,包括在生物医学和非生物医学领域的应用。等等。
更新日期:2021-11-16
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