Synthesis of single-phase Au nanorods in an anodic aluminum oxide template with an optimized process for a highly sensitive and non-enzyme methyl mercaptan gas detector

Chien Yu Li, Chung Ping Hsu, Ciao Yu Li, You Lin Wu, Ming Ching Lee, Mau-phon Houng

研究成果: Article

摘要

Single-phase Au nanorods were synthesized using an anodic alumina oxide (AAO) template for methyl mercaptan (CH3SH) gas detection. The Au nanorods were fabricated by pulse electrodeposition on a H2O2 modified template. A Au precursor solution was modified with dimethyl sulfoxide to improve the synthesis of Au nanorods. The deposition parameters of the duty cycle were modulated in multiple groups to produce high-quality Au nanorods. Scanning electron microscopy images illustrated the high regularity of the Au nanorods. X-ray diffraction and transmission electron microscopy images revealed the high composition of the (111) lattice interface. A Au nanorod gas sensor was fabricated after removal of the AAO template. The sensor utilized the self-assembled monolayer property between Au and CH3SH to alter the conductivity of the Au nanorod sensing layer. The sensor exhibited higher sensitivity and selectivity to CH3SH than to N2 and H2S. The sensor had a 0.88% current response under a 0.5 ppm concentration of CH3SH, which increased to 7.82% under 4 ppm CH3SH. The Au nanorods possessed a response 13 times higher than that of a Au thin-film structure.

原文English
頁(從 - 到)4129-4136
頁數8
期刊Microsystem Technologies
24
發行號10
DOIs
出版狀態Published - 2018 十月 1

指紋

Gas detectors
gas detectors
Aluminum Oxide
Nanorods
Sulfhydryl Compounds
thiols
nanorods
templates
aluminum oxides
Aluminum
Oxides
synthesis
sensors
Sensors
Alumina
oxides
Dimethyl sulfoxide
Self assembled monolayers
Dimethyl Sulfoxide
Chemical sensors

All Science Journal Classification (ASJC) codes

  • Electronic, Optical and Magnetic Materials
  • Condensed Matter Physics
  • Hardware and Architecture
  • Electrical and Electronic Engineering

引用此文

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title = "Synthesis of single-phase Au nanorods in an anodic aluminum oxide template with an optimized process for a highly sensitive and non-enzyme methyl mercaptan gas detector",
abstract = "Single-phase Au nanorods were synthesized using an anodic alumina oxide (AAO) template for methyl mercaptan (CH3SH) gas detection. The Au nanorods were fabricated by pulse electrodeposition on a H2O2 modified template. A Au precursor solution was modified with dimethyl sulfoxide to improve the synthesis of Au nanorods. The deposition parameters of the duty cycle were modulated in multiple groups to produce high-quality Au nanorods. Scanning electron microscopy images illustrated the high regularity of the Au nanorods. X-ray diffraction and transmission electron microscopy images revealed the high composition of the (111) lattice interface. A Au nanorod gas sensor was fabricated after removal of the AAO template. The sensor utilized the self-assembled monolayer property between Au and CH3SH to alter the conductivity of the Au nanorod sensing layer. The sensor exhibited higher sensitivity and selectivity to CH3SH than to N2 and H2S. The sensor had a 0.88{\%} current response under a 0.5 ppm concentration of CH3SH, which increased to 7.82{\%} under 4 ppm CH3SH. The Au nanorods possessed a response 13 times higher than that of a Au thin-film structure.",
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Synthesis of single-phase Au nanorods in an anodic aluminum oxide template with an optimized process for a highly sensitive and non-enzyme methyl mercaptan gas detector. / Li, Chien Yu; Hsu, Chung Ping; Li, Ciao Yu; Wu, You Lin; Lee, Ming Ching; Houng, Mau-phon.

於: Microsystem Technologies, 卷 24, 編號 10, 01.10.2018, p. 4129-4136.

研究成果: Article

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AU - Wu, You Lin

AU - Lee, Ming Ching

AU - Houng, Mau-phon

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AB - Single-phase Au nanorods were synthesized using an anodic alumina oxide (AAO) template for methyl mercaptan (CH3SH) gas detection. The Au nanorods were fabricated by pulse electrodeposition on a H2O2 modified template. A Au precursor solution was modified with dimethyl sulfoxide to improve the synthesis of Au nanorods. The deposition parameters of the duty cycle were modulated in multiple groups to produce high-quality Au nanorods. Scanning electron microscopy images illustrated the high regularity of the Au nanorods. X-ray diffraction and transmission electron microscopy images revealed the high composition of the (111) lattice interface. A Au nanorod gas sensor was fabricated after removal of the AAO template. The sensor utilized the self-assembled monolayer property between Au and CH3SH to alter the conductivity of the Au nanorod sensing layer. The sensor exhibited higher sensitivity and selectivity to CH3SH than to N2 and H2S. The sensor had a 0.88% current response under a 0.5 ppm concentration of CH3SH, which increased to 7.82% under 4 ppm CH3SH. The Au nanorods possessed a response 13 times higher than that of a Au thin-film structure.

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