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IGZO-based electrolyte-gated field-effect transistor for in situ biological sensing platform

Authors
Chae, Myung-SicPark, Ju HyunSon, Hyun WooHwang, Kyo SeonKim, Tae Geun
Issue Date
1-6월-2018
Publisher
ELSEVIER SCIENCE SA
Keywords
Igzo; Oxide semiconductor; EGFET; Biosensor
Citation
SENSORS AND ACTUATORS B-CHEMICAL, v.262, pp.876 - 883
Indexed
SCIE
SCOPUS
Journal Title
SENSORS AND ACTUATORS B-CHEMICAL
Volume
262
Start Page
876
End Page
883
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/74976
DOI
10.1016/j.snb.2018.02.090
ISSN
0925-4005
Abstract
An amorphous indium gallium zinc oxide (IGZO)-based electrolyte-gated field-effect transistor (IGZO-EGFET) was fabricated and its feasibility as a biological sensing platform was evaluated. Herein, a 50-nm-thick IGZO thin film deposited via radio-frequency sputtering was utilized as both the active channel and biological interface of the device. The fabricated IGZO-EGFET operated by inducing a gate voltage directly through the liquid electrolyte at a low bias range ( similar to+1.5 V) with a subthreshold swing of 185 mV dec(-1). The high uniformity of electrical characteristics for the devices were confirmed with 11.4% chip-to-chip deviation by measuring the threshold voltages (V-th), and the shift of Vth was employed as a major parameter to determine the biological interactions. In order to assess IGZO-EGFETs as a biosensing platform, first, pH sensing was conducted with and without amino-silanization on the IGZO surface. The amine-modified device showed steeper slope between Vth shifts and pH variations (68.5 mV pH(-1)) than that (32.7 mV pH(-1)) of the bare IGZO-EGFET. Subsequently, IGZO-EGFETs immobilized with a monoclonal antibody were employed for the in situ detection of alpha-synuclein (alpha S) proteins in concentration ranges from 10 fg mL(-1) to 1 ng mL(-1). The results showed that IGZO-EGFETs are suitable for the specific recognition of analytes with a linear relationship of 9.35 mV dec(-1) between Vth shifts and alpha S concentrations in a logarithmic scale, verifying its applicability as a sensing device for biological interactions. (C) 2018 Elsevier B.V. All rights reserved.
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