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Three-dimensional self-assembly of graphene oxide and DNA into multifunctional hydrogels.

Three-dimensional self-assembly of graphene oxide and DNA into multifunctional hydrogels. Graphene and its functionalized derivatives are unique and versatile building blocks for self-assembly to fabricate graphene-based functional materials with hierarchical microstructures. Here we report a strategy for three-dimensional self-assembly of graphene oxide sheets and DNA to form multifunctional hydrogels. The hydrogels possess high mechanical strength, environmental stability, and dye-loading capacity, and a exhibit self-healing property. This study provides a new insight for the assembly of functionalized graphene with other building blocks, especially biomolecules, which will help rational design and preparation of hierarchical graphene-based materials. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png ACS Nano Pubmed

Three-dimensional self-assembly of graphene oxide and DNA into multifunctional hydrogels.

Xu, Yuxi; Wu, Qiong; Sun, Yiqing; Bai, Hua; Shi, Gaoquan
ACS Nano , Volume 4 (12): -7295 – Mar 23, 2011
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Three-dimensional self-assembly of graphene oxide and DNA into multifunctional hydrogels.


Abstract

Graphene and its functionalized derivatives are unique and versatile building blocks for self-assembly to fabricate graphene-based functional materials with hierarchical microstructures. Here we report a strategy for three-dimensional self-assembly of graphene oxide sheets and DNA to form multifunctional hydrogels. The hydrogels possess high mechanical strength, environmental stability, and dye-loading capacity, and a exhibit self-healing property. This study provides a new insight for the assembly of functionalized graphene with other building blocks, especially biomolecules, which will help rational design and preparation of hierarchical graphene-based materials.

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ISSN
1936-0851
DOI
10.1021/nn1027104
pmid
21080682

Abstract

Graphene and its functionalized derivatives are unique and versatile building blocks for self-assembly to fabricate graphene-based functional materials with hierarchical microstructures. Here we report a strategy for three-dimensional self-assembly of graphene oxide sheets and DNA to form multifunctional hydrogels. The hydrogels possess high mechanical strength, environmental stability, and dye-loading capacity, and a exhibit self-healing property. This study provides a new insight for the assembly of functionalized graphene with other building blocks, especially biomolecules, which will help rational design and preparation of hierarchical graphene-based materials.

Journal

ACS NanoPubmed

Published: Mar 23, 2011

There are no references for this article.