Synthesis, morphology, and formation mechanism of mullite particles produced by ultrasonic spray pyrolysis

Janaćković, Dj.; Jokanovic, Vukoman; Kostic-Gvozdenovic, Lj.; Živković, Ljiljana; Uskoković, Dragan

doi:10.1557/jmr.1996.0214

Cited by 33 publications

(8 citation statements)

References 24 publications

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“…7 Spinel was the first crystalline phase from high temperature (≥ 900 • C) decomposition of an aerosol of Al nitrate and fumed silica 8 or from ultrasonic spray pyrolysis at 900 • C of aqueous solutions of Al nitrate and silicic acid. 9 In the present work we have studied the crystallisation of amorphous spray-dried powders in the whole range of compositions in the Al 2 O 3 -SiO 2 system. Spray-drying aqueous solutions being a less usual and less known process for mullite synthesis, 10,11 the kinetics of crystallisation have been determined for comparison with usual processes.…”

Section: Introductionmentioning

confidence: 99%

Crystallisation of amorphous spray-dried precursors in the Al2O3–SiO2 system

Douy

2006

Journal of the European Ceramic Society

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Section: Introductionmentioning

confidence: 99%

Crystallisation of amorphous spray-dried precursors in the Al2O3–SiO2 system

Douy

2006

Journal of the European Ceramic Society

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“…The choice of the ultrasonic nebulizer comes from the fact that it can provide a narrower micro-droplet distribution in the mist when compared to, e.g., compressed air spray nozzles [37]. Due to the tighter control on the mist droplet size, the ultrasonic nebulizers have gained popularity in some applications as a replacement of compressed gas nozzles, notably in aerosol-based drug delivery devices [38,39] and spray pyrolysis based thin-film [40][41][42] and powder/NP synthesis [37,43,44]. Furthermore, due the compact nature of the ultrasonic nebulizers, which consists of a piezo transducer connected to a simple driving circuitry, compared to a nozzle attached to a compressor or pump, the ultrasonic nebulizers have gained popularity in portable commercial applications, such as aerosolbased drug delivery devices, household humidifiers, etc.…”

Section: Delicate Pattern Application Mechanismmentioning

confidence: 99%

Cool, Dry, Nano-scale DIC Patterning of Delicate, Heterogeneous, Non-planar Specimens by Micro-mist Nebulization

Shafqat

2021

Exp Mech

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Background: Application of patterns to enable high-resolution Digital Image Correlation (DIC) at the small scale (μm/nm) is known to be very challenging as techniques developed for the macro- and mesoscale, such as spray painting, cannot be scaled down directly. Moreover, existing nano-patterning techniques all rely on harsh processing steps, based on high temperature, chemicals, physical contact, liquids, and/or high vacuum, that can easily damage fragile, small-scale, free-standing and/or hygro-sensitive specimens, such as MEMS or biological samples. Objective: To present a straightforward, inexpensive technique specially designed for nano-patterning highly delicate specimens for high-resolution DIC. Methods: The technique consists in a well-controlled nebulized micro-mist, containing predominantly no more than one nanoparticle per mist droplet. The micro-mist is subsequently dried, resulting in a flow of individual nanoparticles that are deposited on the specimen surface at near-room temperature. By having single nanoparticles falling on the specimen surface, the notoriously challenging task of controlling nanoparticle-nanoparticle and nanoparticle-surface interactions as a result of the complex droplet drying dynamics, e.g., in drop-casting, is circumvented. Results: High-quality patterns are demonstrated for a number of challenging cases of physically and chemically sensitive specimens with nanoparticles from 1 μm down to 50 nm in diameter. It is shown that the pattern can easily be scaled within (and probably beyond) this range, which is of special interest for micromechanical testing using in-situ microscopic imaging techniques, such as high-magnification optical microscopy, optical profilometry, atomic force microscopy, and scanning electron microscopy, etc. Conclusions: Delicate specimens can conveniently be patterned at near-room temperature ($\sim $ ∼ 37 ∘C), without exposure to chemicals, physical contact or vacuum, while the pattern density and speckle size can be easily tuned.

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“…Moreover, a Pyrosol technique for thin film synthesis through aerosols is developed, too. Based on these techniques, the synthesis of fine, spherical, submicronic powders either in crystal or amorphous state based on oxides, metals and non-oxides have been processed as follows: ZnO 38,41,54,55) , ZnO-Pt(IV) 56) , ZnO-Ru(III) 57) ,, BaTiO3 42) , ZnO-Cr2O3 spinel 34) , Al2O3 based materials 58,59) , Ni, NiO 60) , SiC 61) , Q-TiO2 62) , nanocomposites Ag:(Bi,Pb)-2223) 15,63,64) , phosphors, Gd2O3: Eu 10,65,66,67) , Y2O3:Eu, (GdY)2O3:Eu 20,68,69) , Y3Al5O12: Ce 10,[70][71][72][73][74] , LiFePO4 75) . Those materials are applicable for electronics, optoelectronics, engineering ceramics, catalysts, biomaterials etc.…”

Section: Monodispersed Droplets/particlesmentioning

confidence: 99%