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Electro-deposition of gold nano-structures on gold Quartz Crystal Microbalance (QCM) electrodes for enhanced mercury vapour sensitivity in the presence of interferent gasses

机译：金纳米结构在金石英晶体微天平（QCm）电极上的电沉积，用于在存在干扰气体的情况下提高汞蒸气敏感性

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Gold electrode quartz crystal microbalances (QCMs) were used as transducing platform to detect and sense elemental mercury (Hg) in gas phase. The enhanced sensitivity, resulting form the electro-deposition of gold nano-structures on the surface is shown to increase the response magnitude (RM) of the sensors in the presence of ammonia and humidity interference. The concentration of NH3 and H2O was varied in the range 590 to 1770mg/m3 and 4.2 to 10.4mg/m3, respectively. A constant gas flow of 200sccm, balanced in nitrogen was used as the carrier gas. The RM for Hg was enhanced by creating nanostructures on the sensorpsilas gold electrodes via electro-deposition of gold in a lead acetate electrolyte. The results presented are a critical step in the development of a cheap regenerable and reliable sensor for measuring Hg in the presence of interferents gases commonly found in industrial applications.

机译：金电极石英晶体微量天平（QCM）被用作传感和检测气相中汞（Hg）的传感平台。结果表明，在氨和湿气干扰下，金纳米结构在表面上的电沉积所产生的增强的灵敏度可提高传感器的响应幅度（RM）。 NH3和H2O的浓度分别在590-1770mg / m3和4.2-10.4mg / m3的范围内变化。使用氮气平衡的200sccm恒定气流作为载气。通过在乙酸铅电解质中电沉积金，在感官金电极上创建纳米结构，可以提高汞的RM。给出的结果是开发廉价的可再生，可靠的传感器的关键步骤，该传感器可在工业应用中常见的干扰气体存在下测量汞。

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Sabri Y; Ippolito S; Tardio J; Sood D; Bhargava S;
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1. Cold vapor integrated quartz crystal microbalance (CV-QCM) based detection of mercury ions with gold nanostructures [J] . Kabir K. M. Mohibul, Jampaiah Deshetti, Kandjani Ahmad Esmaielzadeh, Sensors and Actuators . 2019,第JULa期

机译：基于冷蒸气集成石英晶体微天平（CV-QCM）的具有金纳米结构的汞离子检测
2. Cold vapor integrated quartz crystal microbalance (CV-QCM) based detection of mercury ions with gold nanostructures [J] . Kabir K. M. Mohibul, Jampaiah Deshetti, Kandjani Ahmad Esmaielzadeh, Sensors and Actuators . 2019,第Jula期

机译：冷蒸汽集成石英晶体微稳定（CV-QCM）基于金纳结构的汞离子检测
3. Gold Coated Nanostructured Molybdenum Oxide Mercury Vapour Quartz Crystal Microbalance Sensor [J] . Deepak Dhawan, Suresh Bhargava, James Tardio, Sensor Letters: A Journal Dedicated to all Aspects of Sensors in Science, Engineering, and Medicine . 2008,第1期

机译：镀金纳米结构氧化钼汞蒸气石英晶体微天平传感器
4. Electro-deposition of Gold Nano-Structures on Gold Quartz Crystal Microbalance (QCM) Electrodes for Enhanced Mercury Vapour Sensitivity in the Presence of Interferent Gases [C] . Ylias M. Sabri, Samuel J. Ippolito, James Tardio, International Conference on Nanoscience and Nanotechnology . 2008

机译：金石英晶体微观（QCM）电极上的金纳米结构的电沉积，在干扰气体存在下提高汞气相敏感性
5. Electrochemical quartz crystal microbalance (EQCM) studies of films: Part 1. Ion and water transfers accompanying redox switching of Prussian Blue. Part 2. Adsorption of fibrinogen on gold modified electrodes with PPY. [D] . Kim, Ketack. 2002

机译：薄膜的电化学石英晶体微天平（EQCM）研究：第1部分。伴随普鲁士蓝的氧化还原转换而发生的离子和水转移。第2部分。纤维蛋白原在PPY修饰的金修饰电极上的吸附。
6. Assessing the Mass Sensitivity for Different Electrode Materials Commonly Used in Quartz Crystal Microbalances (QCMs) [O] . Xianhe Huang, Qiao Chen, Wei Pan, 2019

机译：评估石英晶体微天平（QCM）中常用的不同电极材料的质量敏感性
7. Electro-deposition of Gold Nano-Structures on Gold Quartz Crystal Microbalance (QCM) Electrodes for Enhanced Mercury Vapour Sensitivity in the Presence of Interferent Gases [O] . Ylias M. Sabri, James Tardio, Dinesh K. Sood, 2015

机译：金纳米结构在金石英晶体微天平（QCm）电极上的电沉积，用于在干扰气体存在下提高汞蒸气敏感性

Electro-deposition of gold nano-structures on gold Quartz Crystal Microbalance (QCM) electrodes for enhanced mercury vapour sensitivity in the presence of interferent gasses

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