From Gas Sensors to Biomimetic Artificial Noses

• Main Authors: Paolo Pelosi, Jiao Zhu, Wolfgang Knoll
• Format: Article
• Language: English
• Published: MDPI AG 2018-08-01
• Series: Chemosensors
• Subjects: olfactory code; olfactory receptors; odorant-binding proteins; electronic nose; biosensors; chemical sensors
• Online Access: http://www.mdpi.com/2227-9040/6/3/32

Since the first attempts to mimic the human nose with artificial devices, a variety of sensors have been developed, ranging from simple inorganic and organic gas detectors to biosensing elements incorporating proteins of the biological olfactory system. In order to design a device able to mimic the human nose, two major issues still need to be addressed regarding the complexity of olfactory coding and the extreme sensitivity of the biological system. So far, only 50 of the approximately 300–400 functioning olfactory receptors have been de-orphanized, still a long way from breaking the human olfactory code. On the other hand, the exceptional sensitivity of the human nose is based on amplification mechanisms difficult to reproduce with electronic circuits, and perhaps novel approaches are required to address this issue. Here, we review the recent literature on chemical sensing both in biological systems and artificial devices, and try to establish the state-of-the-art towards the design of an electronic nose.