Title :
Electronic Detection of DNA Hybridization: Toward CMOS Microarrays
Author :
Benini, Luca ; Guiducci, Carlotta ; Paulus, Christian
Author_Institution :
Univ. of Bologna
Abstract :
Low-cost mass fabrication methods and label-free capacitive biosensors are needed for many applications. This article presents a electronic microarrays, with single-chip implementations in CMOS technology. Although biochemical operations in CMOS-based arrays are almost the same as in optical devices, the simple readout of integrated CMOS sensors greatly facilitates system integration. These chips can perform a significant amount of sensor data processing and produce digital output signals in standardized form. They can be easily connected to simple, inexpensive, handheld or even wearable readers. However, these devices are in their infancy. Only a small subset of them are at the level of complete single-die integration of sensors, transducers, and data-conditioning circuits. Our purpose in this article is to outline the main technology, design, and implementation challenges involved in developing these highly integrated research prototypes.
Keywords :
CMOS digital integrated circuits; DNA; biochemistry; biosensors; capacitive sensors; chemical sensors; molecular biophysics; DNA hybridization; biochemical operations; data-conditioning circuits; electronic microarrays; integrated CMOS sensors; label-free capacitive biosensors; low-cost mass fabrication methods; sensor data processing; single-chip implementations; Biosensors; CMOS technology; DNA; Optical arrays; Optical device fabrication; Optical devices; Optical sensors; Sensor arrays; Sensor systems; Wearable sensors; CMOS microarrays; DNA hybridization; label-based DNA chip; label-free DNA chip;
Journal_Title :
Design & Test of Computers, IEEE
DOI :
10.1109/MDT.2007.12
