Comprehensive study of a detection mechanism and optimization strategies to improve sensitivity in a nanogap-embedded biotransistor

Sungho Kim, Jae Hyuk Ahn, Tae Jung Park, Sang Yup Lee, Yang Kyu Choi

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Abstract

A novel biomolecular detection method, charge pumping, is investigated comprehensively as a biosensing mechanism. Tunneling electrons located in channel interface are responsible for a charge pumping current (Icp) in a biosensing operation. The maximum tunneling distance (dtunnel) of the electrons is the dominant factor to determine the amount of generated I cp, which is closely correlated with the sensitivity in a proposed nanogap-embedded biotransistor structure. Using an analytical model in which biomolecules are considered as a trap-included insulator, the effects of the key parameters that govern dtunnel, in this case the nanogap height, frequency of the applied pulse, and maximum pulse level, are analyzed.

Original languageEnglish
Article number114705
JournalJournal of Applied Physics
Volume107
Issue number11
DOIs
StatePublished - 1 Jun 2010

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