Sensitization of ZnO Nanorods by AgInS2 Colloidal Quantum Dots for Adsorption Gas Sensors with Light Activation

a low-temperature technique for the formation of coatings based on ZnO nanorods decorated with colloidal AgInS 2 quantum dots is presented. It is shown that ZnO nanocrystals and colloidal AgInS 2 quantum dots with a shell of mercaptopropionic acid molecules form a hetero junction. Sensitization of Z...

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Published in:Technical physics 2023-11, Vol.68 (11), p.497-503
Main Authors: Ryabko, A. A., Nalimova, S. S., Mazing, D. S., Korepanov, O. A., Guketlov, A. M., Aleksandrova, O. A., Maximov, A. I., Moshnikov, V. A., Shomakhov, Z. V., Aleshin, A. N.
Format: Article
Language:English
Subjects:
Classical and Continuum Physics
Colloids
Gas sensors
Isopropanol
Low temperature
Nanorods
Physics
Physics and Astronomy
Quantum dots
Room temperature
Zinc oxide
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creator Ryabko, A. A.
Nalimova, S. S.
Mazing, D. S.
Korepanov, O. A.
Guketlov, A. M.
Aleksandrova, O. A.
Maximov, A. I.
Moshnikov, V. A.
Shomakhov, Z. V.
Aleshin, A. N.
description a low-temperature technique for the formation of coatings based on ZnO nanorods decorated with colloidal AgInS 2 quantum dots is presented. It is shown that ZnO nanocrystals and colloidal AgInS 2 quantum dots with a shell of mercaptopropionic acid molecules form a hetero junction. Sensitization of ZnO nanorods with AgInS 2 colloidal quantum dots to visible irradiation provides a gas analytical response of the structure to isopropyl alcohol vapor at room temperature under blue LED illumination with a peak wavelength of 460 nm.
doi_str_mv 10.1134/S1063784223900905
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subjects Classical and Continuum Physics
Colloids
Gas sensors
Isopropanol
Low temperature
Nanorods
Physics
Physics and Astronomy
Quantum dots
Room temperature
Zinc oxide
title Sensitization of ZnO Nanorods by AgInS2 Colloidal Quantum Dots for Adsorption Gas Sensors with Light Activation
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