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Modeling and Design of Polythiophene Gate Electrode ChemFETs for Environmental Pollutant Sensing
Proceedings of the 15th Biennial University/Government/Industry Microelectronics Symposium, 2003
  • T. V. Krishna, Boise State University
  • Jeffrey R. Jessing, Boise State University
  • Dale D. Russell, Boise State University
  • Jonathan Scaggs, Boise State University
  • Lisa R. Warner, Boise State University
  • Joe A. Hartman, Boise State University
Document Type
Conference Proceeding
Publication Date
1-1-2003
Abstract

Water-borne pollutants such as volatile organic compounds are a serious environmental concern, which has increased the demand for chemical sensing elements. Solidstate sensors based on catalytic gate devices are a subject of current research, however they are restricted in practical applications because of their inability to operate at room temperature. Conducting polymer FETs, which employ a conducting gate polymer, have received much attention due to their unique electronic and optical properties. Polythiophene is chosen as the semi-conductive gate polymer in this work. A functional group attached to the polythiophene is used to detect analytes (i.e., mercury in this work) of interest. The selectivity of the derivitized polythiophene to mercury can he rationalized based on the size of the ring, presence of oxygen and nitrogen donor atoms. In this paper, the modeling and design of a polythiophene gate electrode ChemFET will he discussed. Specifically the model development and resultant device simulations using Silvaco TCAD will be presented. Using this model various current-voltage characteristics of the ChemFET corresponding to parameters such as substrate doping, gate oxide thickness, various gate stacks, and device geometries are presented.

Copyright Statement

This document was originally published by IEEE in Proceedings of the 15th Biennial University/Government/Industry Microelectronics Symposium, 2003. Copyright restrictions may apply. DOI: 10.1109/UGIM.2003.1225741

Citation Information
T. V. Krishna, Jeffrey R. Jessing, Dale D. Russell, Jonathan Scaggs, et al.. "Modeling and Design of Polythiophene Gate Electrode ChemFETs for Environmental Pollutant Sensing" Proceedings of the 15th Biennial University/Government/Industry Microelectronics Symposium, 2003 (2003)
Available at: http://works.bepress.com/lisa-warner/21/