论文信息 - Electric field and Charged Molecules Mediated Self-Assembly for Electronic Devices

Electric field and Charged Molecules Mediated Self-Assembly for Electronic Devices

In this paper we present techniques, utilizing dielectrophoresis and electrohydrodynamics, which can possibly be used for assembling devices suspended in a solution onto a binding site on a substrate. We explored the concepts using micro-scale negatively charged polystyrene beads and rectangular silicon blocks. Dielectrophoretic forces on devices in buffer solutions were examined as a function of frequency of the applied AC signal. The observed results can be explained by taking in account electro-thermal and AC electroosmotic effects. The study described in the paper can be used for placing and assembling micro and nano-electronic devices and objects at specific sites on various substrates, in combination with bio-inspired biological binding techniques such as DNA hybridization, antigen-antibody interactions, and ligand-receptor (avidin-biotin) interactions.

[1] Peter R. C. Gascoyne,et al. A theoretical method of electrical field analysis for dielectrophoretic electrode arrays using Green's theorem , 1996 .

[2] Ilhan A. Aksay,et al. Assembly of Colloidal Crystals at Electrode Interfaces , 1997 .

[3] Hywel Morgan,et al. Dielectrophoretic separation of nano-particles , 1997 .

[4] Hywel Morgan,et al. RAPID COMMUNICATION: Separation of submicrometre particles using a combination of dielectrophoretic and electrohydrodynamic forces , 1998 .

[5] H. Morgan,et al. Ac electrokinetics: a review of forces in microelectrode structures , 1998 .

[6] H. Morgan,et al. THE ROLE OF ELECTROHYDRODYNAMIC FORCES IN THE DIELECTROPHORETIC MANIPULATION AND SEPARATION OF PARTICLES , 1999 .

[7] P. A. Smith,et al. Electric-field assisted assembly and alignment of metallic nanowires , 2000 .

[8] Rashid Bashir,et al. Electric-Field-Mediated Assembly of Silicon Islands Coated with Charged Molecules , 2002 .