The evolution of morphology and structure of spin-coated Zinc Acetate thin films and their impact on ZnO film morphology
Ilyassov B.R. Alekseev A.M. Abisheva A.K. Zeinidenov A.K. Aimukhanov A.K.
30 October 2024Elsevier B.V.
Thin Solid Films
2024#807
The deposition of ZnO thin films using sol-gel technology is a straight forward and widely used method for fabricating ZnO films with diverse morphologies and tunable electrical and optical properties. Notably, the preparation of ZnO compact layers from a zinc acetate and monoethanolamine (ZA:MEA) solution via spin-coating has gained popularity due to its simplicity. The pretreatment of spin-coated ZA:MEA films significantly impacts the morphology and structure of the resulting ZnO films. While the effects of preheating and its rate on ZnO precursor films have been extensively studied, the morphological and structural evolution of ZA:MEA films immediately after spin-coating and its subsequent impact on the final ZnO film have not been previously explored. In this study, we present the topography and phase composition of as-grown ZA:MEA films using atomic force microscopy (AFM). We conduct an in-situ investigation of the morphological evolution of ZA:MEA films. Our results reveal that as-grown ZA:MEA films possess an inhomogeneous structure. AFM phase image shows two distinct domains in the ZA:MEA films. Over time, we observe the growth of crystals in both vertical and perpendicular directions. ZA:MEA film aged for at least 20 h develops arrays of vertically oriented crystals throughout the film covered with sheet-like crystals forming on the film surface. This temporal evolution in the morphology and structure of ZA:MEA films significantly influences the morphology of the final ZnO film.
Aging of thin films , Annealing of thin films , Atomic force microscopy , Sol-gel deposition techniques , Spin-coating techniques , Surface morphology , Surface roughness , ZnO thin films
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Astana IT University, Expo C1, Astana, Kazakhstan
Buketov Karaganda University, Center of nanotechnology and functional nanomaterials, University str., 28, Karaganda, 100028, Kazakhstan
Astana IT University
Buketov Karaganda University
10 лет помогаем публиковать статьи Международный издатель
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