From dendrimers to fractal polymers and beyond

Authors

  • Charles N. Moorefield The Maurice Morton Institute for Polymer Science
  • Anthony Schultz The Maurice Morton Institute for Polymer Science
  • George R. Newkome The University of Akron; The Department of Polymer Science

DOI:

https://doi.org/10.1590/S1984-82502013000700007

Keywords:

Arborol, Dendrimer, Supramolecular, Terpyridine, Self-assembly

Abstract

The advent of dendritic chemistry has facilitated materials research by allowing precise control of functional component placement in macromolecular architecture. The iterative synthetic protocols used for dendrimer construction were developed based on the desire to craft highly branched, high molecular weight, molecules with exact mass and tailored functionality. Arborols, inspired by trees and precursors of the utilitarian macromolecules known as dendrimers today, were the first examples to employ predesigned, 1 → 3 C-branched, building blocks; physical characteristics of the arborols, including their globular shapes, excellent solubilities, and demonstrated aggregation, combined to reveal the inherent supramolecular potential (e.g., the unimolecular micelle) of these unique species. The architecture that is a characteristic of dendritic materials also exhibits fractal qualities based on self-similar, repetitive, branched frameworks. Thus, the fractal design and supramolecular aspects of these constructs are suggestive of a larger field of fractal materials that incorporates repeating geometries and are derived by complementary building block recognition and assembly. Use of terpyridine-M2+-terpyridine (where, M = Ru, Zn, Fe, etc) connectivity in concert with mathematical algorithms, such as forms the basis for the Seirpinski gasket, has allowed the beginning exploration of fractal materials construction. The propensity of the fractal molecules to self-assemble into higher order architectures adds another dimension to this new arena of materials and composite construction.

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Published

2013-01-01

Issue

Vol. 49 (2013): special issue

Section

Articles

License

All content of the journal, except where identified, is licensed under a Creative Commons attribution-type BY.

The on line journal has open and free access.

How to Cite

From dendrimers to fractal polymers and beyond . (2013). Brazilian Journal of Pharmaceutical Sciences, 49(spe), 67-84. https://doi.org/10.1590/S1984-82502013000700007