Macromolecular Isomerism in Giant Molecules

Macromolecular isomerism has been an important yet largely understudied subject. Giant molecules based on molecular nanoparticles exhibit properties highly dependent on the primary structures, providing a platform for such studies. Various isomers have been designed, synthesized and characterized, i...

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Veröffentlicht in:	Chemistry : a European journal 2020-03, Vol.26 (14), p.2985-2992
Hauptverfasser:	Shao, Yu, Yang, Shuguang, Zhang, Wen‐Bin
Format:	Artikel
Sprache:	eng
Schlagworte:	Chemistry giant molecules Isomers Macromolecules Nanoparticles self-assembly topology
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creator	Shao, Yu Yang, Shuguang Zhang, Wen‐Bin
description	Macromolecular isomerism has been an important yet largely understudied subject. Giant molecules based on molecular nanoparticles exhibit properties highly dependent on the primary structures, providing a platform for such studies. Various isomers have been designed, synthesized and characterized, including sequence‐, regio‐, and topo‐isomers. The self‐assembly of these isomers is influenced by the distinct symmetry and collective interaction of each building block in a subtle and delicate way. The results suggest that isomerism may be exploited as a new way for fine‐tuning the structures and properties of macromolecules, which should be of great interest in both fundamental research and technical innovation. Macromolecular isomerism has been a largely understudied phenomenon. Giant molecules provide an ideal platform for such studies and should help illustrate the structure–property relationships as well as the delicate influence of structural factors on the assembly.
doi_str_mv	10.1002/chem.201904419
format	Article
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subjects	Chemistry giant molecules Isomers Macromolecules Nanoparticles self-assembly topology
title	Macromolecular Isomerism in Giant Molecules
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