Low temperature acetylene gas sensor based on Ag nanoparticles-loaded ZnO-reduced graphene oxide hybrid

Uddin, A.S.M. Iftekhar; Phan, Duy-Thach; Chung, Gwiy‐Sang

doi:10.1016/j.snb.2014.10.091

Cited by 199 publications

(77 citation statements)

References 49 publications

(55 reference statements)

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“…Furthermore, as extensively previously discussed, many nanostructures have proved able to provide excellent sensitivity and selectivity to the VOCs even in presence of medium-high RH levels [40,116,119,199].…”

Section: Selectivity and Effect Of Humiditymentioning

confidence: 71%

“…Consequently, the combustion of acetylene can produce a large amount of heat (its highest flame temperature is approximately 3300 °C), and it can explode if the absolute pressure of the gas exceeds 103 kPa [32,33]. Therefore, for environmental and safety purposes, the development of a highly effective C 2 H 2 sensor has become increasingly important to meet the demands of accurate environmental monitoring, for early leakage warning and to avoid incomplete combustion.…”

Section: Acetylene (C 2 H 2 )mentioning

confidence: 99%

“…18) as sensitive materials for low temperature acetylene detection were recently investigated by Uddin et al [199,200]. [199]. [199] ZnO/RGO 100 18.2 a 250 100/24 [200] (b)…”

Section: Acetylene Sensorsmentioning

confidence: 99%

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Detection of hazardous volatile organic compounds (VOCs) by metal oxide nanostructures-based gas sensors: A review

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Section: Selectivity and Effect Of Humiditymentioning

confidence: 71%

Section: Acetylene (C 2 H 2 )mentioning

confidence: 99%

See 1 more Smart Citation

Detection of hazardous volatile organic compounds (VOCs) by metal oxide nanostructures-based gas sensors: A review

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“…표면에 Pt, Au 같은 금속이 코팅 또는 도핑 될 경우에 일함수, 전기저항, 금속촉매의 상변이 등을 발생시켜 높은 선택성을 가질 수 있다 [6,7] This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License(http://creativecommons.org/ licenses/bync/3.0) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.…”

Section: 서 론unclassified

Fabrication of C₂H₂Gas Sensors Based on Ag/ZnO-rGO Hybrid Nanostructures and Their Characteristics

Lee¹,

Chung²

2015

Journal of Sensor Science and Technology

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In this work, pure hierarchical ZnO structure was prepared using a simple hydrothermal method, and Ag nanoparticles doped hierarchical ZnO structure was synthesized uniformly through photochemical route. The reduced graphene oxide (rGO) has been synthesized by typical Hummer's method and reduced by hydrazine. Prepared Ag/ZnO nanostructures are uniformly dispersed on the surface of rGO sheets using ultrasonication process. The synthesized samples were characterized by SEM, TEM, EDS, XRD and PL spectra. The average size of prepared ZnO microspheres was around 2~3 µm and showed highly uniform. The average size of dopedAg nanoparticles was 50 nm and decorated into ZnO/rGO network. The C 2 H 2 gas sensing properties of as-prepared products were investigated using resistivity-type gas sensor. Ag/ZnO-rGO based sensors exhibited good performances for C 2 H 2 gas in comparison with the Ag/ZnO. The C 2 H 2 sensor based on Ag/ZnO-rGO had linear response property from 3~1000 ppm of C 2 H 2 concentration at working temperature of 200 o C. The response values with 100 ppm C 2 H 2 at 200 o C were 22% and 78% for Ag/ZnO and Ag/ZnO-rGO, respectively. In additions, the sensor still shows high sensitivity and quick response/recovery to C 2 H 2 under high relative humidity conditions. Moreover, the device shows excellent selectivity towards to C 2 H 2 gas at optimal working temperature of 200 o C.Keywords: Ag-doped ZnO microspheres, Graphene-hybrid nanostructures, Hydrothermal method, Photochemical reduction, C 2 H 2 gas sensor 1. 서 론 Received: Nov. 17, 2014, Revised: Jan. 12, 2015, Accepted: Jan. 14, 2015 This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License(http://creativecommons.org/ licenses/bync/3.0) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

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“…Так в [12] получены данные о применимости близкого по составу к рассма-триваемой керамике сенсорного материала, состоящего из наночастиц Ag и ZnO с при-месью графена для детектирования ацетиле-на. Эти результаты дают основание полагать о перспективности керамики ZnO с добавкой серебра для разработки сенсоров широко рас-пространенных в технике и быту углеводород-ных смесей, в том числе и природного газа и газообразных продуктов на его основе.…”

Section: Introductionunclassified

SENSITIVITY CONDUCTIVITY OF THE CERAMIC ZnO WITH THE ADDITION OF SILVER TO PROPANE-BUTANE MIXTURE

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Тонкошкур

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2015

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Low temperature acetylene gas sensor based on Ag nanoparticles-loaded ZnO-reduced graphene oxide hybrid

Cited by 199 publications

References 49 publications

Detection of hazardous volatile organic compounds (VOCs) by metal oxide nanostructures-based gas sensors: A review

Detection of hazardous volatile organic compounds (VOCs) by metal oxide nanostructures-based gas sensors: A review

Fabrication of C₂H₂Gas Sensors Based on Ag/ZnO-rGO Hybrid Nanostructures and Their Characteristics

SENSITIVITY CONDUCTIVITY OF THE CERAMIC ZnO WITH THE ADDITION OF SILVER TO PROPANE-BUTANE MIXTURE

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Low temperature acetylene gas sensor based on Ag nanoparticles-loaded ZnO-reduced graphene oxide hybrid

Cited by 199 publications

References 49 publications

Detection of hazardous volatile organic compounds (VOCs) by metal oxide nanostructures-based gas sensors: A review

Detection of hazardous volatile organic compounds (VOCs) by metal oxide nanostructures-based gas sensors: A review

Fabrication of C2H2Gas Sensors Based on Ag/ZnO-rGO Hybrid Nanostructures and Their Characteristics

SENSITIVITY CONDUCTIVITY OF THE CERAMIC ZnO WITH THE ADDITION OF SILVER TO PROPANE-BUTANE MIXTURE

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Fabrication of C₂H₂Gas Sensors Based on Ag/ZnO-rGO Hybrid Nanostructures and Their Characteristics