Dielectrophoretic integration of nanodevices with CMOS circuitry

Author

Evoy, Stephane ; DiLello, Nicole ; Deshpande, Vinayak ; Narayanan, Arvind ; Raman, Sanjay

Author_Institution

Dept. of Electr. & Syst. Eng., Pennsylvania Univ., Philadelphia, PA, USA

fYear

2004

fDate

16-19 Aug. 2004

Firstpage

428

Lastpage

430

Abstract

We present a novel platform for the development and deployment of nanosensors in integrated systems. The nanosensor technology is based on cylindrical structures grown using porous membranes as templates. These nanostructures are manipulated using dielectrophoretic forces, allowing their individual assembly and characterization. This assembly also enables the development of "mixed-mode" integrated circuits that include readout, signal processing, and communications circuitry, as well as the requisite layout for the post-IC assembly of the nanostructures. We report on the designs of such mixed mode systems whose layouts integrate dielectrophoretic assembly sites with a rudimentary resistance read-out circuitry.

Keywords

CMOS integrated circuits; electrophoresis; integrated circuit layout; mixed analogue-digital integrated circuits; nanoelectronics; nanostructured materials; CMOS circuitry; communications circuitry; cylindrical structures; dielectrophoretic forces; dielectrophoretic integration; integrated systems; layouts integrate dielectrophoretic assembly sites; mixed mode systems; mixed-mode integrated circuits; nanodevices; nanosensor technology; nanosensors; nanostructures; porous membranes; post-IC assembly; rudimentary resistance readout circuitry; signal processing; Assembly systems; Biological materials; Circuits; Dielectrophoresis; Electrodes; Nanobioscience; Nonuniform electric fields; Semiconductor materials; Semiconductor nanostructures; Silicon;

fLanguage

English

Publisher

ieee

Conference_Titel

Nanotechnology, 2004. 4th IEEE Conference on

Print_ISBN

0-7803-8536-5

Type

conf

DOI

10.1109/NANO.2004.1392373

Filename

1392373