Aero-Sol−Gel Synthesis of Nanoporous Iron-Oxide Particles:  A Potential Oxidizer for Nanoenergetic Materials

Prakash, Anand; McCormick, and Alon V.; Zachariah, Michael R.

doi:10.1021/cm034740t

Cited by 115 publications

(55 citation statements)

References 14 publications

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“…The critical role of surface characteristics of the ultrasonic jet formed in the separation process have been elucidated and a physico-chemical mechanism based on the conjunction theory has been supported by the experiments in this work. Potential applications of this research include removal of surfactants from solutions, aero sol-gel synthesis of nanocomposites [11], concentration of Japanese rice wine (sake) [7] and wastewater purification. …”

Section: Resultsmentioning

confidence: 99%

Ethanol enrichment from ethanol–water mixtures using high frequency ultrasonic atomization

Kirpalani¹,

Suzuki²

2011

Ultrasonics Sonochemistry

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The influence of high frequency ultrasound on the enrichment of ethanol from ethanol-water mixtures was investigated. Experiments performed in a continuous enrichment system showed that the generated atomized mist was at a higher ethanol concentration than the feed and the enrichment ratio was higher than the vapor liquid equilibrium curve for ethanol-water above 40 mol%. Well-controlled experiments were performed to analyze the effect of physical parameters; temperature, carrier gas flow and collection height on the enrichment. Droplet size measurements of the atomized mist and visualization of the oscillating fountain jet formed during sonication were made to understand the separation mechanism.Crown

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Section: Resultsmentioning

confidence: 99%

Ethanol enrichment from ethanol–water mixtures using high frequency ultrasonic atomization

Kirpalani¹,

Suzuki²

2011

Ultrasonics Sonochemistry

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“…This is due to its favorable properties such as a band gap between 2.0-2.2 eV, which allows absorbing a substantial fraction of solar spectrum, chemical stability in aqueous environment, and nontoxicity. It is an active component of gas sensors, catalyst, lithium ion battery, pigments and oxidizer in thermite composition [2][3][4][5][6]. It is also used in magnetic fluids, also called ferrofluids, for damping in inertial motors, shock absorbers, heat transfer fluids, etc [7].…”

Section: Introductionmentioning

confidence: 99%

Synthesis of hematite α-Fe2O3 nano powders by the controlled precipitation method / Síntesis de nano polvos de hematita α-Fe2O3 por el método de precipitación

Morales

2017

Cienc. En Desarro.

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Recently increased attention has been paid to the synthesis of hematite nanoparticles, due to its properties and application in various fields of modern technology. The aqueous route has shown to be simpler and more versatile than the non-aqueous routes. In this study, nanopowder particles of α-Fe (hematite) were synthesized by controlled precipitation method in three stages: precursors' precipitation, washing and calcination. The precipitation was controlled with ferric chloride as precursor, and sodium hydroxide as precipitant, in constant agitation and pH 6.There were tested with different reaction times: With 1 and 2 days. With one day reaction, the synthesis of hematite accompanied by maghemite, was verified by XRD. After 2 days of the reaction was proved that it is possible to obtain hematite and maghemite in greater quantities, but with magnetite impurities, and less chloride content, thanks to repeated washings. This is an interesting observation since impurities magnetite has not been reported in the synthesis of hematite by controlled precipitation method.It was found that the reaction time and repeated washings used in the synthesis process, played an important role in determining the iron oxides and particle size, plus phase formation and transformation, which was confirmed at different reaction times and repeated washings by XRD analysis, FT-IR, Raman and SEM.Samples with two days reaction, washed and calcinated at 425 ºC, with a size less than 100 nm are associated with a hematite, magnetite and maghemite mixture, with almost a plate-shaped sphere morphology and the aggregates are formed by hemispherical primary particles, whose size apparently is in the nanometers' order.

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“…This system is also of interest, because the rich phase diagram of the iron oxides represent a class of extremely relevant materials not only in chemistry but also in areas such as magnetism 14 , soil science 15 , catalysis 16 , and more recently medicine 17 and energetic materials 18,19 . A non-hydrolitic preparation of iron oxide crystals is appealing in that in principle it allows one to achieve a dependable synthetic procedure by avoiding the complex aqueous chemistry 20 .…”

Section: Introductionmentioning

confidence: 99%

The Concept of Delayed Nucleation in Nanocrystal Growth Demonstrated for the Case of Iron Oxide Nanodisks

et al. 2006

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RECEIVED DATE (to be automatically inserted after your manuscript is accepted if required according to the journal that you are submitting your paper to) TITLE RUNNING HEAD. Monodisperse Iron Oxide Nanodisks by Delayed Nucleation 2 ABSTRACT A comprehensive study of iron oxide nanocrystal growth through non-hydrolitic, surfactantmediated thermal reaction of iron pentacarbonyl and an oxidizer has been conducted, which includes size control, anisotropic shape evolution, and crystallographic phase transition of monodisperse iron oxide colloidal nanocrystals. The reaction was monitored by in situ UV-Vis spectroscopy taking advantage of the color change accompanying the iron oxide colloid formation allowing measurement of the induction time for nucleation. Features of the synthesis such as the size control and reproducibility are related to the occurrence of the observed delayed nucleation process. As a separate source of iron and oxygen is adopted, phase control could also be achieved by sequential injections of oxidizer.3

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Aero-Sol−Gel Synthesis of Nanoporous Iron-Oxide Particles: A Potential Oxidizer for Nanoenergetic Materials

Cited by 115 publications

References 14 publications

Ethanol enrichment from ethanol–water mixtures using high frequency ultrasonic atomization

Ethanol enrichment from ethanol–water mixtures using high frequency ultrasonic atomization

Synthesis of hematite α-Fe2O3 nano powders by the controlled precipitation method / Síntesis de nano polvos de hematita α-Fe2O3 por el método de precipitación

The Concept of Delayed Nucleation in Nanocrystal Growth Demonstrated for the Case of Iron Oxide Nanodisks

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