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本文引用的文献

1
Modifying the response of a polymer-based quartz crystal microbalance hydrocarbon sensor with functionalized carbon nanotubes.用功能化碳纳米管修饰基于聚合物的石英晶体微平衡碳氢化合物传感器的响应。
Talanta. 2011 Sep 15;85(3):1648-57. doi: 10.1016/j.talanta.2011.06.062. Epub 2011 Jun 30.
2
A gas chromatography quartz crystal microbalance for speciation of nitroaromatic compounds in landfill gas.一种用于测定垃圾填埋气中硝基芳香族化合物形态的气相色谱石英晶体微天平。
Talanta. 2001 Apr 12;54(2):383-8. doi: 10.1016/s0039-9140(00)00670-6.
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Environmental applications of carbon-based nanomaterials.碳基纳米材料的环境应用。
Environ Sci Technol. 2008 Aug 15;42(16):5843-59. doi: 10.1021/es8006904.
4
Polymer coated quartz crystal microbalance sensors for detection of volatile organic compounds in gas mixtures.用于检测混合气体中挥发性有机化合物的聚合物涂层石英晶体微天平传感器。
Anal Chim Acta. 2007 Aug 6;597(2):223-30. doi: 10.1016/j.aca.2007.06.050. Epub 2007 Jun 28.
5
Polymers of intrinsic microporosity (PIMs): robust, solution-processable, organic nanoporous materials.固有微孔聚合物(PIMs):坚固、可溶液加工的有机纳米多孔材料。
Chem Commun (Camb). 2004 Jan 21(2):230-1. doi: 10.1039/b311764b. Epub 2003 Dec 5.
6
Crystalline Ropes of Metallic Carbon Nanotubes.金属碳纳米管的晶体绳索
Science. 1996 Jul 26;273(5274):483-7. doi: 10.1126/science.273.5274.483.

使用碳纳米管双层修饰石英晶体微天平作为气相色谱检测器进行高温质量检测。

High temperature mass detection using a carbon nanotube bilayer modified quartz crystal microbalance as a GC detector.

作者信息

Benz Marcel, Benz Lauren, Patel Sanjay V

机构信息

Seacoast Science, Inc., 2151 Las Palmas Drive, Suite C., Carlsbad, California 92011, United States.

出版信息

Anal Chem. 2015 Mar 3;87(5):2779-87. doi: 10.1021/ac504101a. Epub 2015 Feb 10.

DOI:10.1021/ac504101a
PMID:25627574
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5821122/
Abstract

A small, portable gas chromatograph (GC) was assembled for the trace detection of controlled substances using a novel quartz crystal microbalance sensor (QCM). The QCM crystal surface was modified with a variety of sorption materials to increase adsorption thereby amplifying mass detection. Single polymer thin film coatings increased the QCM response by 1-2 orders of magnitude, while operating at over 100 °C. Adding a layer of carbonaceous nanomaterial (graphene or carbon nanotubes) above such a film dramatically increased sensitivity by up to 3 orders of magnitude compared to uncoated crystals. Separation and detection of submicrogram quantities of controlled substances was carried out within minutes by employing a GC column and detector temperature ramp up to 220 °C. An additional 10-fold enhancement in sensitivity was achieved by mechanical abrasion of the sample swabs used in the sample introduction process. This study demonstrated a novel use of a polymer composite modified QCM as a chemical sensor at high temperatures.

摘要

组装了一台小型便携式气相色谱仪(GC),用于使用新型石英晶体微天平传感器(QCM)对管制物质进行痕量检测。通过用各种吸附材料修饰QCM晶体表面来增加吸附,从而放大质量检测。单一聚合物薄膜涂层在超过100°C的温度下运行时,可将QCM响应提高1 - 2个数量级。在这种薄膜上添加一层碳质纳米材料(石墨烯或碳纳米管),与未涂层的晶体相比,灵敏度显著提高,最高可达3个数量级。通过采用温度升至220°C的GC柱和检测器,在几分钟内即可对亚微克量的管制物质进行分离和检测。在样品引入过程中,通过对样品拭子进行机械磨损,灵敏度又提高了10倍。本研究展示了聚合物复合材料修饰的QCM在高温下作为化学传感器的新用途。