Title :
DNA technology for optoelectronics
Author :
Ackley, Donald E. ; Heller, Michael J. ; Edman, Carl F.
Author_Institution :
Nanogen Inc., San Diego, CA, USA
Abstract :
High performance photonics systems and subsystems require increasing sophistication in packaging and assembly technology to achieve their performance targets. We are exploring DNA labelling techniques to achieve the precise placement of semiconductor structures on host substrates. These labelling techniques allow the electrophoretic transport of the semiconductor structures in solution, as well as the specific matching of structures to host locations due to the complementary base pairing inherent in DNA hybridization. By configuring an electrode array on the host substrate, various semiconductor structures may be manipulated in solution using the electric fields created by applying a potential to the electrodes. In conjunction with the inherent selectivity of the DNA base pairing (in a process known as hybridization) specific placement and orientation of the structures on the host substrate may be achieved
Keywords :
DNA; biomolecular electronics; electrophoresis; nanotechnology; optoelectronic devices; self-assembly; DNA hybridization; DNA labelling; DNA technology; assembly technology; complementary base pairing; electrode array; electrophoretic transport; fluorescently labelled beads; high performance photonics systems; host locations; host substrates; manipulation in solution; nanoscale component devices; optoelectronics; packaging technology; precise placement; self-assembly; semiconductor structures; specific matching of structures; Assembly systems; Bonding; Chemistry; DNA; Electrodes; Electrokinetics; Labeling; Photonics; Sequences; Substrates;
Conference_Titel :
Lasers and Electro-Optics Society Annual Meeting, 1998. LEOS '98. IEEE
Conference_Location :
Orlando, FL
Print_ISBN :
0-7803-4947-4
DOI :
10.1109/LEOS.1998.737745
