Artificial olfactory sensor technology that mimics the olfactory mechanism: A comprehensive review
Artificial olfactory sensors that recognize patterns transmitted by olfactory receptors are
emerging as a technology for monitoring volatile organic compounds. Advances in statistical …
emerging as a technology for monitoring volatile organic compounds. Advances in statistical …
Artificial olfactory biohybrid system: an evolving sense of smell
C Qin, Y Wang, J Hu, T Wang, D Liu, J Dong… - Advanced …, 2023 - Wiley Online Library
The olfactory system can detect and recognize tens of thousands of volatile organic
compounds (VOCs) at low concentrations in complex environments. Bioelectronic nose (B …
compounds (VOCs) at low concentrations in complex environments. Bioelectronic nose (B …
Viruses as biomaterials
Viruses lacking the capacity to infect mammals exhibit minimal toxicity, good
biocompatibility, and well-defined structures. As self-organized biomolecular assemblies …
biocompatibility, and well-defined structures. As self-organized biomolecular assemblies …
Artificial Neural Processing‐Driven Bioelectronic Nose for the Diagnosis of Diabetes and Its Complications
Diabetes and its complications affect the younger population and are associated with a high
mortality rate; however, early diagnosis can contribute to the selection of appropriate …
mortality rate; however, early diagnosis can contribute to the selection of appropriate …
Advanced sensing of volatile organic compounds in the fermentation of kombucha tea extract enabled by nano-colorimetric sensor array based on density functional …
W Kang, H Lin, SYSS Adade, Z Wang, Q Ouyang… - Food Chemistry, 2023 - Elsevier
Volatile organic compounds (VOCs) released by food serve as monitoring indicators during
fermentation. Thus the demand for highly sensitive and selective biosensors to VOCs is …
fermentation. Thus the demand for highly sensitive and selective biosensors to VOCs is …
[HTML][HTML] Engineered olfactory system for in vitro artificial nose
T Zhang, W Ren, F Xiao, J Li, B Zu, X Dou - Engineered Regeneration, 2022 - Elsevier
The engineered biomimetic sensors can not only realize the action of organs, but also
combine functional materials as in vitro organs by simulating the response of biological …
combine functional materials as in vitro organs by simulating the response of biological …
Neural mechanism mimetic selective electronic nose based on programmed M13 bacteriophage
The electronic nose is a reliable practical sensor device that mimics olfactory organs.
Although numerous studies have demonstrated excellence in detecting various target …
Although numerous studies have demonstrated excellence in detecting various target …
The development progress of multi-array colourimetric sensors based on the M13 bacteriophage
Techniques for detecting chemicals dispersed at low concentrations in air continue to
evolve. These techniques can be applied not only to manage the quality of agricultural …
evolve. These techniques can be applied not only to manage the quality of agricultural …
Current issues and perspectives in nanosensors-based artificial olfactory systems for breath diagnostics and environmental exposure monitoring
Artificial olfactory systems that can provide sustainable monitoring and non-invasive
diagnostics are emerging for environmental exposure detection and exhaled breath …
diagnostics are emerging for environmental exposure detection and exhaled breath …
Gas-responsive two-dimensional metal–organic framework composites for trace visualization of volatile organic compounds
H Chen, Z You, Y Hong, X Wang, M Zhao… - Biosensors and …, 2024 - Elsevier
Highly sensitive and specific identification of complex volatile organic compound mixtures
has always been a huge challenge in the field of gas detection. To address this issue, the …
has always been a huge challenge in the field of gas detection. To address this issue, the …