Abstract
Artificial olfactory system has been received increasing attention due to its important applications in future artificial nose, humanoid robot and next generation human-computer interface. However, it is still a challenge to completely simulate the functions of the human olfactory system recognize, remember and induce muscle movement from pungent odor. Here, we have developed a flexible artificial olfactory system by integrating Sr-ZnO-based gas sensors, HfO x -based memristors and electrochemical actuators, which can recognize and memorize and make the self-protection action for NH 3 . The Sr-ZnO gas sensor can perceive and recognize NH 3 through the change of resistance, and the signal transferred to the memristor can switch the resistance states for the storage of ammonia information. Meanwhile, the activation of memristor can also trigger the movement of the electrochemical actuator to block the gas flow channel analogous to the self-protection action of covering the nose with the hand when smelling irritating NH 3 . Our artificial olfactory system provides a promising strategy for future bioinspired electronics research, especially in the field of mimicking biological sensory systems. A flexible artificial olfactory system integrating Sr-ZnO-based gas sensor, HfO x -based memristor, and an electrochemical actuator, which can recognize, memorize and make self-protection action for the NH 3 simulation. • An integrated artificial olfactory system was designed and fabricated. • The system realizes multiple functions by simply integrating flexible gas sensors, memristors and actuators. • The olfactory system realizes the perception, recognition, memory and action response of ammonia in the bionic nose.
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