ELECTRIC FIELD ASSISTED SELF-ASSEMBLY OF DNA BASED MOLECULAR CHROMOPHORE COMPONENTS FOR OPTICAL DATA STORAGE AND OTHER NANOTECHNOLOGY APPLICATIONS

Michael J. Heller; Carl Edman; Don Ackley; WJ Kitchen; Christian Gurtner; Rachel Formosa

doi:10.1364/SLM.1999.STuA2

Spatial Light Modulators and Intgrated Optoelectronic Arrays
OSA Technical Digest (Optica Publishing Group, 1999),
paper STuA2
•https://doi.org/10.1364/SLM.1999.STuA2

ELECTRIC FIELD ASSISTED SELF-ASSEMBLY OF DNA BASED MOLECULAR CHROMOPHORE COMPONENTS FOR OPTICAL DATA STORAGE AND OTHER NANOTECHNOLOGY APPLICATIONS

Michael J. Heller, Carl Edman, Don Ackley, WJ Kitchen, Christian Gurtner, and Rachel Formosa

Spatial Light Modulators and Integrated Optoelectronic Arrays 1999

Aspen, Colorado United States
ISBN: 1-55752-602-8

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Integrated Optoelectronic Arrays 1 (STuA)

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M. J. Heller, C. Edman, D. Ackley, W. Kitchen, C. Gurtner, and R. Formosa, "ELECTRIC FIELD ASSISTED SELF-ASSEMBLY OF DNA BASED MOLECULAR CHROMOPHORE COMPONENTS FOR OPTICAL DATA STORAGE AND OTHER NANOTECHNOLOGY APPLICATIONS," in Spatial Light Modulators and Intgrated Optoelectronic Arrays, OSA Technical Digest (Optica Publishing Group, 1999), paper STuA2.

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Abstract

Active microelectronic DNA arrays are presently being used for genomic research and diagnostics. These arrays transport charged DNA molecules to specific microscopic sites. These devices can serve as “host substrates” for self-assembly of complex 2D and 3D structures. This technology is being used to develop a high bit density optical storage material based DNA derivatized chromophore groups.

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