Ultrasound-assisted crystallization (sonocrystallization)

Castro, M.D. Luque de; Priego-Capote, Feliciano

doi:10.1016/j.ultsonch.2006.12.004

Cited by 495 publications

(226 citation statements)

References 17 publications

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“…Of all of these, sonication is one of the most commonly used, versatile, and significant in that it physically pulverizes solid constituents, typically in a liquid-solid slurry, into smaller fragments of a more uniform size and simultaneously increases the degree of intermixing when multiple components are present. Under some conditions ultrasound can also induce chemical change in a system and more importantly to this work, enhance crystallization in [42,43]. Under such conditions acoustic waves drive bubble formation, growth, and collapse through cavitation, which creates localized temperatures as high as 5000 °C and pressures as high as 500 atmospheres that in turn can induce chemistry [44].…”

Section: Introductionmentioning

confidence: 76%

Physiochemical Characterization of Iodine (V) Oxide Part II: Morphology and Crystal Structure of Particulate Films

2015

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Abstract:In this study, the production of particulate films of iodine (V) oxides is investigated. The influence that sonication and solvation of suspended particles in various alcohol/ketone/ester solvents have on the physical structure of spin or drop cast films is examined in detail with electron microscopy, powder x-ray diffraction, and UV-visible absorption spectroscopy. Results indicate that sonicating iodine oxides in alcohol mixtures containing trace amounts of water decreases deposited particle sizes and produces a more uniform film morphology. UV-visible spectra of the pre-cast suspensions reveal that for some solvents, the iodine oxide oxidizes the solvent, producing I2 and lowering the pH of the suspension. Characterizing the crystals within the cast films reveal their composition to be primarily HI3O8, their orientations to exhibit a preferential orientation, and their growth to be primarily along the ac-plane of the crystal, enhanced at higher spin rates. Spin-coating at lower spin rates produces laminate-like particulate films versus higher density, one-piece films of stacked particles produced by drop casting. The particle morphology in these films consists of a combination of rods, plates, cubes, and rhombohedra structure.

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Section: Introductionmentioning

confidence: 76%

Physiochemical Characterization of Iodine (V) Oxide Part II: Morphology and Crystal Structure of Particulate Films

2015

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“…Ultrasound application results in a dramatic reduction in induction period, metastable zone width and altered supersaturation conditions. [10][11][12][13] This will have significant effect on co-crystallization process of non-congruent system like caffeine -maleic acid. The sonochemistry reports available to date on co-crystallization of caffeine -maleic acid have used organic solvents.…”

Section: Introductionmentioning

confidence: 99%

Synthesis of Caffeine/Maleic Acid Co-crystal by Ultrasound-assisted Slurry Co-crystallization

Apshingekar

Aher

Kelly

et al. 2017

Journal of Pharmaceutical Sciences

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ABSTRACT:A green approach has been used for co-crystallization of non-congruent co-crystal pair of caffeinemaleic acid using water. Ultrasound is known to affect crystallization hence the effect of high power ultrasound on the ternary phase diagram has been investigated in detail using a slurry co-crystallization approach. A systematic investigation was performed to understand how the accelerated conditions during ultrasound assisted co-crystallization will affect different regions of the ternary phase diagram.Application of ultrasound showed considerable effect on the ternary phase diagram; principally on caffeine/maleic acid 2:1 (disappeared) and 1:1 co-crystal (narrowed) regions. Also, the stability regions for pure caffeine and maleic acid in water were narrowed in the presence of ultrasound, expanding the solution region. The observed effect of ultrasound on the phase diagram was correlated with solubility of caffeine and maleic acid and stability of co-crystal forms in water.

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“…It was observed that the lactose yield decreased with an increase in the protein concentration in lactose solution. It is known that at a short sonication time, the ultrasound waves fail to blend the solution and precipitate a little after sonication; at longer sonication time, more crystals precipitate at once but the average size of crystals becomes smaller with continuous sonication (De Castro and Priego-Capote, 2007). When the liquid medium (lactose solution) is exposed to ultrasound waves, alternating compression and expansion cycles are created.…”

Section: Effect Of Sonication Time On Lactose Yieldmentioning

confidence: 99%

Anti-solvent sonocrystallisation of lactose

Patel¹,

Murthy²

2011

Chemical and Process Engineering

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The present work deals with ultrasound assisted crystallisation of lactose from lactose solution. The crystallisation of lactose was completed rapidly by applying the ultrasound waves in the presence of an anti-solvent (n-propanol), at the room temperature (30±3 o C). The yield of lactose was found to be more than 85% (w/w) in 4 minutes of sonication. The spread of the crystal size distribution was found to decrease with increase in sonication time.

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Ultrasound-assisted crystallization (sonocrystallization)

Cited by 495 publications

References 17 publications

Physiochemical Characterization of Iodine (V) Oxide Part II: Morphology and Crystal Structure of Particulate Films

Physiochemical Characterization of Iodine (V) Oxide Part II: Morphology and Crystal Structure of Particulate Films

Synthesis of Caffeine/Maleic Acid Co-crystal by Ultrasound-assisted Slurry Co-crystallization

Anti-solvent sonocrystallisation of lactose

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