Pattern Recognition Using Chemical Sensor for Identification of Solid Materials by Responses to Multiple Probe Gases

Review Chemistry, Analytical

Recent Advances in Nanomechanical Membrane-Type Surface Stress Sensors towards Artificial Olfaction

Kosuke Minami et al.

Summary: Nanomechanical sensors are powerful tools for detecting, distinguishing, and identifying target analytes, especially odors. Combining nanomechanical sensors with data processing technologies can achieve artificial olfaction.

BIOSENSORS-BASEL (2022)

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Review Chemistry, Analytical

Recent Trends in Exhaled Breath Diagnosis Using an Artificial Olfactory System

Chuntae Kim et al.

Summary: This review discusses the importance of artificial olfactory systems in fields such as healthcare, along with the trend and prospects of using these systems for disease diagnosis. Monitoring health status and early disease diagnosis are crucial in modern healthcare, with the potential to increase survival rates and reduce treatment costs. The article introduces promising technologies for real-time monitoring of health conditions and early disease diagnosis through analysis of exhaled human breath.

BIOSENSORS-BASEL (2021)

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Article Physics, Applied

Sorption-induced static mode nanomechanical sensing with viscoelastic receptor layers for multistep injection-purge cycles

Kosuke Minami et al.

Summary: Nanomechanical sensors and arrays attract attention for detecting, distinguishing, and identifying target analytes. An analytical model of viscoelastic material-based nanomechanical sensing is derived by extending the theoretical model and solving differential equations with recurrence relations. The model accurately predicts entire signal responses by extracting viscoelastic properties of materials and concentrations of analytes.

JOURNAL OF APPLIED PHYSICS (2021)

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Article Multidisciplinary Sciences

Determination of quasi-primary odors by endpoint detection

Hanxiao Xu et al.

Summary: The proposed method introduces quasi-primary odors as an alternative approach to represent odors, selected from a dataset using machine learning-based endpoint detection and combined with certain ratios. This allows for reproducing any other odor in the dataset and even synthesizing a new arbitrary odor by combining these quasi-primary odors.

SCIENTIFIC REPORTS (2021)

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Article Chemistry, Multidisciplinary