Surface Activity-Tuned Metal Oxide Chemiresistor: Toward Direct and Quantitative Halitosis Diagnosis

Abstract: Continuous monitoring of hydrogen sulfide (H2S) in human breath for early stage diagnosis of halitosis is of great significance for prevention of dental diseases. However, fabrication of a highly selective and sensitive H2S gas sensor material still remains a challenge, and direct analysis of real breath samples has not been properly attempted, to the best of our knowledge. To address the issue, herein, we introduce facile cofunctionalization of WO3 nanofibers with alkaline metal (Na) and noble metal (Pt) cata… Show more

“…Sensitive real-time monitoring of trace H 2 S (100-500 ppb) in exhaled breath can help provide useful information for clinical disease diagnosis. [6][7][8] Therefore, it is imperative to develop a high-efficiency H 2 S gas sensor with excellent sensitivity, high selection, and fast response.…”

Co,N-doped GQDs/SnO₂ mesoporous microspheres exhibit synergistically enhanced gas sensing properties for H₂S gas detection

“…Sensitive real-time monitoring of trace H 2 S (100-500 ppb) in exhaled breath can help provide useful information for clinical disease diagnosis. [6][7][8] Therefore, it is imperative to develop a high-efficiency H 2 S gas sensor with excellent sensitivity, high selection, and fast response.…”

Co,N-doped GQDs/SnO₂ mesoporous microspheres exhibit synergistically enhanced gas sensing properties for H₂S gas detection

“…Additionally, the sensor exhibited reliability and reproducibility, ensuring its long-term use in practical situations. Meanwhile, Bezdek et al [ 104 ] based SWCNTs on non-covalently functionalized P4VP, a carbon nanotube that doped (Pt-POM) CH4 oxidation catalyst onto the sensor through P4VP coordination, resulting in a significant improvement in all sensor properties. Additionally, Shin et al [ 105 ] performed a simple co-functionalization of WO3 nanofibers with alkali metal (Na) and noble metal (Pt) catalysts by the simple addition of NaCl and Pt nanoparticles followed by electrostatic spinning, which produced a highly sensitive and flexible H 2 S gas sensor.…”

“… Application of a flexible sensor based on a chemical formula: ( a ) schematic diagram of a self-powered H 2 gas sensor [ 103 ]; ( b ) surface-active tuned metal oxide chemical resistor for direct analysis of human mouth odor [ 104 ]. …”

The Progress of Research into Flexible Sensors in the Field of Smart Wearables

“…Noble metals have broad application prospects in catalysis, [1][2][3][4] sensing, [5][6][7] optics, 8,9 and diagnosis. [10][11][12] Especially in the eld of catalysis, they have high-efficiency catalytic activity and stability, owing to their suitable d-band center position, which can effectively adsorb and activate reactants and desorb the reaction products efficiently. 13,14 However, the high cost and low reserves of noble metals hinder their wide application in the eld of electrocatalysis.…”

Recent advances in noble metal MXene-based catalysts for electrocatalysis