"Directed assembly of carbon nanotubes at liquid-liquid interfaces: nanoscale conveyors for interfacial biocatalysis" by Prashanth Asuri

Prashanth Asuri

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Directed assembly of carbon nanotubes at liquid-liquid interfaces: nanoscale conveyors for interfacial biocatalysis

Bioengineering

Prashanth Asuri, Santa Clara University
Sandeep S. Karajanagi
Jonathan S. Dordick
Ravi S. Kane

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Document Type

Article

Publication Date

2-1-2006

Publisher

American Chemical Society

Disciplines

Biomedical Engineering and Bioengineering

Abstract

We report that single-walled carbon nanotubes (SWNTs) can be directed to aqueous−organic interfaces with the aid of surfactants. This phenomenon can also be used to transport enzymes to the interface to effect biphasic biotransformations. Consequently, SWNT−enzyme conjugates enhance the rate of catalysis by up to 3 orders of magnitude relative to the rates obtained with native enzymes in similar biphasic systems. Furthermore, we demonstrate that this concept can be extended to other nanomaterials and other enzymes, thereby providing a general strategy for efficient interfacial biocatalysis. The ability to direct the assembly of nanotubes at the interface also provides an attractive route to organizing these nanomaterials into 2D architectures.

Citation Information

Asuri, P.; Karajanagi, S.S.; Dordick, J.S.; Kane, R.S. Directed assembly of carbon nanotubes at liquid-liquid interfaces: nanoscale conveyors for interfacial biocatalysis, Journal of the American Chemical Society, 128, 1046-1047 (2006). http://doi.org/10.1021/ja0573965