q&more
My watch list
my.chemie.de  
Login  

Polymer tube nanoreactors via DNA-origami templated synthesis

We describe the stepwise synthesis of precise polymeric objects programmed by a 3D DNA tube transformed from a common 2D DNA tile as a precise biotemplate for atom transfer radical polymerization. The catalytic interior space of the DNA tube was utilized for synthesizing a bio-inspired polymer, polydopamine.

Authors:   Yu Tokura; Sean Harvey; Xuemei Xu; Chaojian Chen; Svenja Morsbach; Katrin Wunderlich; George Fytas; Yuzhou Wu; David Y. W. Ng; Tanja Weil
Journal:   Chemical Communication
Volume:   54
edition:   22
Pages:   2808
DOI:   10.1039/C7CC09620H
Facts, background information, dossiers
  • DNA
  • synthesis
  • radical polymerisation
  • radical polymerization
  • polydopamine
  • DNA origami
Weitere Publikationen aus %journal%

q&more – the networking platform for quality excellence in lab and process

The q&more concept is to increase the visibility of recent research and innovative solutions, and support the exchange of knowledge. In the broad spectrum of subjects covered, the focus is on achieving maximum quality in highly innovative sectors. As a modern knowledge platform, q&more offers market participants one-of-a-kind networking opportunities. Cutting-edge research is presented by authors of international repute. Attractively presented in a high-quality context, and published in German and English, the original articles introduce new concepts and highlight unconventional solution strategies.

> more about q&more

q&more is supported by:

 

Your browser is not current. Microsoft Internet Explorer 6.0 does not support some functions on Chemie.DE