一种基于犬嗅觉纳米囊泡-碳纳米管混合结构的生物电子传感器，用于快速评估食品质量。

A bioelectronic sensor based on canine olfactory nanovesicle-carbon nanotube hybrid structures for the fast assessment of food quality.

机构信息

Department of Physics and Astronomy, Seoul National University, Seoul, 151-742, Korea.

出版信息

Analyst. 2012 Jul 21;137(14):3249-54. doi: 10.1039/c2an16274a. Epub 2012 Apr 12.

Abstract

We developed an olfactory-nanovesicle-fused carbon-nanotube-transistor biosensor (OCB) that mimics the responses of a canine nose for the sensitive and selective detection of hexanal, an indicator of the oxidation of food. OCBs allowed us to detect hexanal down to 1 fM concentration in real-time. Significantly, we demonstrated the detection of hexanal with an excellent selectivity capable of discriminating hexanal from analogous compounds such as pentanal, heptanal, and octanal. Furthermore, we successfully detected hexanal in spoiled milk without any pretreatment processes. Considering these results, our sensor platform should offer a new method for the assessment of food quality and contribute to the development of portable sensing devices.

摘要

我们开发了一种嗅觉纳米囊泡融合碳纳米管晶体管生物传感器 (OCB)，该传感器模拟了犬鼻的反应，用于敏感和选择性地检测己醛，己醛是食物氧化的指示剂。OCB 使我们能够实时检测到低至 1 fM 浓度的己醛。重要的是，我们证明了该传感器具有出色的选择性，能够区分己醛与类似化合物，如戊醛、庚醛和辛醛。此外，我们无需任何预处理过程即可成功检测到变质牛奶中的己醛。考虑到这些结果，我们的传感器平台应该为评估食品质量提供一种新方法，并有助于开发便携式感测设备。

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一种基于犬嗅觉纳米囊泡-碳纳米管混合结构的生物电子传感器，用于快速评估食品质量。

A bioelectronic sensor based on canine olfactory nanovesicle-carbon nanotube hybrid structures for the fast assessment of food quality.

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