Porosity controlled 3D SnO2 spheres via electrostatic spray: Selective acetone sensors

•To control the porosity, the e-spraying and PS beads templating route are combined, resulting in highly porous structure.•Pt functionalized PH-SnO2 spheres exhibited high response (Rair/Rgas = 44.83) toward 5 ppm of acetone.•Pt-PH-SnO2 spheres exhibited exceptional selectivity toward acetone agains...

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Bibliographic Details
Published inSensors and actuators. B, Chemical Vol. 304; p. 127350
Main Authors Cho, Hee-Jin, Choi, Seon-Jin, Kim, Nam-Hoon, Kim, Il-Doo
Format Journal Article
LanguageEnglish
Published Lausanne Elsevier B.V 01.02.2020
Elsevier Science Ltd
Subjects
Acetone
Beads
Bimodal pores
Chemical sensors
Detection
Electrostatic spraying
Gas sensors
Metal oxides
Nanoparticles
Pattern recognition
Polystyrene resins
Porosity
PS template
Selectivity
Semiconducting metal oxide
Spraying
Tin dioxide
Chemical sensors
Bimodal pores
Pattern recognition
Electrostatic spraying
PS template
Semiconducting metal oxide
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Summary:•To control the porosity, the e-spraying and PS beads templating route are combined, resulting in highly porous structure.•Pt functionalized PH-SnO2 spheres exhibited high response (Rair/Rgas = 44.83) toward 5 ppm of acetone.•Pt-PH-SnO2 spheres exhibited exceptional selectivity toward acetone against interfering molecules. Tailoring of semiconducting metal oxides (SMOs) nanostructures with high porosity is of importance for enhanced gas sensing performance. Hierarchically-assembled SMOs possess high surface area but often suffer from low porosity. Here, bimodal pore-loaded hierarchical SnO2 (PH-SnO2) spheres were successfully synthesized via electrostatic spraying method (e-spraying) combined with colloidal templating route using polystyrene beads. The resulting porous PH-SnO2 spheres were used as sensing layers for detection of acetone, which exhibited about 20 % enhanced response compared with hierarchical SnO2 (H-SnO2) spheres without pores. In addition, e-spraying is a fascinating technique for uniform catalytic functionalization through a simple dispersion of catalytic nanoparticle (NPs) in the e-spraying solution to improve the sensing performance. As a result, the Pt-functionalized PH-SnO2 (Pt-PH-SnO2) spheres showed dramatically improved acetone detection capability with a response (Rair/Rgas) of 44.83 at 5 ppm as compared to PH-SnO2 spheres (Rair/Rgas = 6.61) as well as superior selectivity. In this work, the unique combination of e-spraying and PS templating route paves the way for robust and facile synthetic method for bimodal pore loaded 3D hierarchical SMOs, and demonstrates the feasibility for application in exhaled breath sensors.
ISSN:0925-4005
1873-3077
DOI:10.1016/j.snb.2019.127350