Disordered Nanomaterials for Chemielectric Vapor Sensing: A Review

Snow A.W.; Perkins F.K.; Ancona M.G.; Robinson J.T.; Snow E.S.; Foos E.E.

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Disordered Nanomaterials for Chemielectric Vapor Sensing: A Review

机译：化学蒸汽感测的无序纳米材料研究进展

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Although robust chemical vapor detection by chemielectric point sensors remains as a largely unmet challenge at present, the best performance to date and the most likely avenue for future progress is with sensor designs in which the transductive element is a disordered nanostructured material. We here review the evidence for this claim, with illustrations drawn from recent work on sensors made from gold nanoparticles, carbon nanotubes, and reduced graphene oxide nanoplatelets. These examples can be regarded as being prototypical of disordered nanostructured films formed of primitive objects that are nanoscopic in 3-D, 2-D, and 1-D, respectively.

机译：尽管通过化学电点传感器进行可靠的化学蒸汽检测目前仍是一个尚未解决的挑战，但是迄今为止，最佳性能和未来发展的最可能途径是传感器设计，其中传感元件是无序的纳米结构材料。我们在这里回顾了这一主张的证据，并列举了近期由金纳米颗粒，碳纳米管和还原性氧化石墨烯纳米片制成的传感器的研究成果。这些例子可以被认为是由原始物体形成的无序纳米结构薄膜的原型，原始物体分别在3-D，2-D和1-D中具有纳米级。

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来源
《Sensors Journal, IEEE》 |2015年第3期|1301-1320|共20页
作者
Snow A.W.; Perkins F.K.; Ancona M.G.; Robinson J.T.; Snow E.S.; Foos E.E.;
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作者单位

, U.S. Naval Research Laboratory, Washington, DC, USA;

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原文格式 PDF
正文语种 eng
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关键词
Chemical sensors; Chemicals; Films; Gold; Sensitivity; Sensors; Carbon nanotubes; chemical vapor sensors; chemielectric point sensing; disorder; gold nanoclusters; nanomaterials; reduced graphene oxide;

机译：化学传感器;化学药品;薄膜;金;灵敏度;传感器;碳纳米管;化学气相传感器;化学电点传感;无序;金纳米团簇;纳米材料;氧化石墨烯;

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Disordered Nanomaterials for Chemielectric Vapor Sensing: A Review

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