Templating of Silsesquioxane Cross-Linking Using Unimolecular Self-Organizing Polymers

Nanopores created by micellar star polymers in amorphous organic silsequioxane thermosets produce morphologically controlled porous materials for semiconductor chip applications (see picture). Pore size is independent of concentration and processing conditions, but depends solely on the size of the...

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Veröffentlicht in:	Angewandte Chemie International Edition 2003-08, Vol.42 (32), p.3785-3788
Hauptverfasser:	Connor, Eric F., Sundberg, Linda K., Kim, Ho-Cheol, Cornelissen, Jeroen J., Magbitang, Teddie, Rice, Phil M., Lee, Victor Y., Hawker, Craig J., Volksen, Willi, Hedrick, James L., Miller, Robert D.
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Schlagworte:	metathesis nanoporous materials polymers self-assembly template synthesis
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container_end_page	3788
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container_title	Angewandte Chemie International Edition
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creator	Connor, Eric F. Sundberg, Linda K. Kim, Ho-Cheol Cornelissen, Jeroen J. Magbitang, Teddie Rice, Phil M. Lee, Victor Y. Hawker, Craig J. Volksen, Willi Hedrick, James L. Miller, Robert D.
description	Nanopores created by micellar star polymers in amorphous organic silsequioxane thermosets produce morphologically controlled porous materials for semiconductor chip applications (see picture). Pore size is independent of concentration and processing conditions, but depends solely on the size of the polymer molecule.
doi_str_mv	10.1002/anie.200350930
format	Article
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subjects	metathesis nanoporous materials polymers self-assembly template synthesis
title	Templating of Silsesquioxane Cross-Linking Using Unimolecular Self-Organizing Polymers
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