Growth mechanisms of ZnO micro-nanomorphologies and their role in enhancing gas sensing properties
Articolo
Data di Pubblicazione:
2021
Abstract:
Zinc oxide (ZnO) is one of the main functional materials used to realize chemiresistive gas sensors. In addition, ZnO can be grown through many different methods obtaining the widest family of unique morphologies. However, the relationship between the ZnO morphologies and their gas sensing properties needs more detailed investigations, also with the aim to improve the sensor performances. In this work, seven nanoforms (such as leaves, bisphenoids, flowers, needles, etc.) were prepared through simple wet chemical synthesis. Morphological and structural characterizations were performed to figure out their growth mechanisms. Then, the obtained powders were deposited through screen-printing technique to realize thick film gas sensors. The gas sensing behavior was tested toward some traditional target gases and some volatile organic compounds (acetone, acetaldehyde, etc.) and compared with ZnO morphologies. Results showed a direct cor-relation between the sensors responses and the powders features (morphology and size), which depend on the specific synthesis process. The sensors can be divided in two behavioral classes, following the two main morphology kinds: aggregates of nanocrystals (leaves and bisphenoids), exhibiting best performances versus all tested gases and monocrystal based (stars, needle, long needles, flowers, and prisms).
Tipologia CRIS:
03A-Articolo su Rivista
Keywords:
Chemo-resistive gas sensors; Growth mechanisms; Pseudomorphism; Thick films; VOCs detection; ZnO nanomorphologies; ε-Zn(OH)2
Elenco autori:
Fioravanti A.; Marani P.; Morandi S.; Lettieri S.; Mazzocchi M.; Sacerdoti M.; Carotta M.C.
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