Silicon Nanowire Ion Sensitive Field Effect Transistor with Integrated Ag/AgCl Electrode: PH Sensing and Noise Characteristics

Overview

Journal Analyst

Publisher Royal Society of Chemistry

Specialty Chemistry

Date 2011 Nov 10

PMID 22068238

Citations 12

Authors

Sungho Kim

Taiuk Rim

Kihyun Kim

Unsang Lee

Eunhye Baek

Hojoon Lee

Chang-Ki Baek

M Meyyappan

M Jamal Deen

Jeong-Soo Lee

Affiliations

Soon will be listed here.

Abstract

We have fabricated Si nanowire (SiNW) based ion-sensitive field effect transistors (ISFETs) for biosensing applications. The ability to prepare a large number of sensors on a wafer, the use of standard silicon microfabrication techniques resulting in cost savings, and potential high sensitivity are significant advantages in favor of nanoscale SiNW ISFETs. The SiNW ISFETs with embedded Ag/AgCl reference electrode were fabricated on a standard silicon-on-insulator wafer using electron-beam lithography and conventional semiconductor processing technology. The current-voltage characteristics show an n-type FET behavior with a relatively high on/off current ratio, reasonable sub-threshold swing value, and low gate-leakage current. The pH responses of the ISFETs with different pH solutions were characterized at room temperature which showed a clear lateral shift of the drain current vs. gate voltage curve with a change in the pH value of the solution and a sensitivity of 40 mV pH(-1). The low frequency noise characteristics were investigated to evaluate the signal to noise ratio and sensing limit of the devices.

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