Electrochemical Characterization of InN Thin Films for Biosensing Applications

Antonio M. Basilio; Yu Kuei Hsu; Acer C.C. Chang; P.C. Wei; Abhijit Ganguly; H.C. Shih; Yit-Tsong Chen; Li Chyong Chen; Kuei Hsien Chen

Electrochemical Characterization of InN Thin Films for Biosensing Applications

Antonio M. Basilio, Yu Kuei Hsu, Acer C.C. Chang, P.C. Wei, Abhijit Ganguly, H.C. Shih, Yit-Tsong Chen, Li Chyong Chen, Kuei Hsien Chen^*

^*此作品的通信作者

力積電-陽明交大研究中心

研究成果: Article › 同行評審

4 引文斯高帕斯（Scopus）

摘要

InN, a well-established optoelectronic material, is currently being considered as a promising material for sensor applications.In this study, the fundamental electrochemical properties of InN thin film and its potential for electrode chemical and bio-sensing applications are demonstrated. The cyclic voltammograms of different concentrations of dopamine solution in 1 M HClO4 were measured. Similarly, potentiostatic measurements at 1 V versus Ag/AgCl show stable responses and linear change of current density with concentrations
up to 0.475 mM dopamine. The InN thin film also demonstrated repeatable positive photoresponse to cathodic currents in 1 mM Ru(NH3)63+ in 1M KCl solution under a 100 mW cm-2 808-nm laser light illumination at a constant -0.25 V (vs. Ag/AgCl) bias. The cathodic current response showed a 27% enhancement, demonstrating its potential as photocathode. This cathodic photocurrent behavior is explained through the electron accumulation of the InN material.

原文	American English
頁（從 - 到）	337-343
期刊	Journal of New Materials for Electrochemical Systems
卷	13
出版狀態	Published - 2010

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2010 Electrochemical characterization of InN thin films for biosensing applications

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title = "Electrochemical Characterization of InN Thin Films for Biosensing Applications",

abstract = "InN, a well-established optoelectronic material, is currently being considered as a promising material for sensor applications.In this study, the fundamental electrochemical properties of InN thin film and its potential for electrode chemical and bio-sensing applications are demonstrated. The cyclic voltammograms of different concentrations of dopamine solution in 1 M HClO4 were measured. Similarly, potentiostatic measurements at 1 V versus Ag/AgCl show stable responses and linear change of current density with concentrationsup to 0.475 mM dopamine. The InN thin film also demonstrated repeatable positive photoresponse to cathodic currents in 1 mM Ru(NH3)63+ in 1M KCl solution under a 100 mW cm-2 808-nm laser light illumination at a constant -0.25 V (vs. Ag/AgCl) bias. The cathodic current response showed a 27% enhancement, demonstrating its potential as photocathode. This cathodic photocurrent behavior is explained through the electron accumulation of the InN material.",

keywords = "biosensor, potentiostatic measurements, dopamine detection, biocompatibility, photoresponse",

author = "Basilio, {Antonio M.} and Hsu, {Yu Kuei} and Chang, {Acer C.C.} and {P.C. Wei} and {Abhijit Ganguly} and {H.C. Shih} and Yit-Tsong Chen and Chen, {Li Chyong} and Chen, {Kuei Hsien}",

year = "2010",

language = "American English",

volume = "13",

pages = "337--343",

journal = "Journal of New Materials for Electrochemical Systems",

issn = "1480-2422",

publisher = "International Information and Engineering Technology Association",

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TY - JOUR

T1 - Electrochemical Characterization of InN Thin Films for Biosensing Applications

AU - Basilio, Antonio M.

AU - Hsu, Yu Kuei

AU - Chang, Acer C.C.

AU - P.C. Wei,

AU - Abhijit Ganguly,

AU - H.C. Shih,

AU - Chen, Yit-Tsong

AU - Chen, Li Chyong

AU - Chen, Kuei Hsien

PY - 2010

Y1 - 2010

N2 - InN, a well-established optoelectronic material, is currently being considered as a promising material for sensor applications.In this study, the fundamental electrochemical properties of InN thin film and its potential for electrode chemical and bio-sensing applications are demonstrated. The cyclic voltammograms of different concentrations of dopamine solution in 1 M HClO4 were measured. Similarly, potentiostatic measurements at 1 V versus Ag/AgCl show stable responses and linear change of current density with concentrationsup to 0.475 mM dopamine. The InN thin film also demonstrated repeatable positive photoresponse to cathodic currents in 1 mM Ru(NH3)63+ in 1M KCl solution under a 100 mW cm-2 808-nm laser light illumination at a constant -0.25 V (vs. Ag/AgCl) bias. The cathodic current response showed a 27% enhancement, demonstrating its potential as photocathode. This cathodic photocurrent behavior is explained through the electron accumulation of the InN material.

AB - InN, a well-established optoelectronic material, is currently being considered as a promising material for sensor applications.In this study, the fundamental electrochemical properties of InN thin film and its potential for electrode chemical and bio-sensing applications are demonstrated. The cyclic voltammograms of different concentrations of dopamine solution in 1 M HClO4 were measured. Similarly, potentiostatic measurements at 1 V versus Ag/AgCl show stable responses and linear change of current density with concentrationsup to 0.475 mM dopamine. The InN thin film also demonstrated repeatable positive photoresponse to cathodic currents in 1 mM Ru(NH3)63+ in 1M KCl solution under a 100 mW cm-2 808-nm laser light illumination at a constant -0.25 V (vs. Ag/AgCl) bias. The cathodic current response showed a 27% enhancement, demonstrating its potential as photocathode. This cathodic photocurrent behavior is explained through the electron accumulation of the InN material.

KW - biosensor

KW - potentiostatic measurements

KW - dopamine detection

KW - biocompatibility

KW - photoresponse

M3 - Article

SN - 1480-2422

VL - 13

SP - 337

EP - 343

JO - Journal of New Materials for Electrochemical Systems

JF - Journal of New Materials for Electrochemical Systems

ER -

Electrochemical Characterization of InN Thin Films for Biosensing Applications

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