Morphology control of amino acid particles in interfacial crystallization using inkjet nozzle

Tamura, Hikaru; Kadota, Kazunori; Shirakawa, Yoshiyuki; Tozuka, Yuichi; Shimosaka, Atsuko; Hidaka, Jusuke

doi:10.1016/j.apt.2013.12.010

Cited by 32 publications

(16 citation statements)

References 23 publications

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“…The crystal structure of glycine was investigated by powder X‐ray diffraction (PXRD) (RINT‐2000; Rigaku Corporation, Tokyo, Japan) with Cu K α ( λ = 0.15406 nm) at a voltage of 40 kV and a current of 200 mA. The mass fraction of α ‐glycine in the solid phase was calculated by

true α (t) = \frac{A_{20.1} + A_{23.9} + A_{29.9}}{A_{20.1} + A_{23.9} + A_{29.9} + A_{21.7} + A_{25.2} + A_{33.7}}

…”

Section: Methodsmentioning

confidence: 99%

Crystallization Behavior of Glycine Molecules with Electrolytic Dissociation on Charged Silica Gel Particles

et al. 2018

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The surface charge of metal oxides in the solution phase may be a driving force for crystallization. Composite particles were prepared using the principle of heterogeneous nucleation on a metal surface with varying charge density. The electrical properties of the silica gel particles in an electrolyte solution were controlled by the pH, and the zero charge point and charge density of the silica gel particles were determined by titration. The morphology of the glycine particles on the silica gel surface depended on the electrical properties of the silica gel particle, resulting in alteration of the glycine polymorph. Powder X‐ray diffraction showed that γ‐glycine was present at low pH, and α‐glycine, at high pH. The polymorphism arose from the abundance ratio of the solute ions and the solution structure.

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true α (t) = \frac{A_{20.1} + A_{23.9} + A_{29.9}}{A_{20.1} + A_{23.9} + A_{29.9} + A_{21.7} + A_{25.2} + A_{33.7}}

…”

Section: Methodsmentioning

confidence: 99%

Crystallization Behavior of Glycine Molecules with Electrolytic Dissociation on Charged Silica Gel Particles

et al. 2018

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“…The polymorphs of the product glycine were identified by X-ray diffraction (XRD, RINT-2100, Rigaku Co.), and the selectivity of polymorphs was determined using the XRD peaks at 2h = 15°for the a-form, 18°for the b-form, and 21°for the c-form [16][17][18]. The XRD peak intensity ratio of the a-form reflection to the b-form or c-form for the corresponding concentration ratio in the range 0/100% a-form in b-form or c-form was a linear function [16].…”

Section: Identification Of Polymorphismmentioning

confidence: 99%

Change in glycine polymorphs induced by minute-bubble injection during antisolvent crystallisation

Matsumoto

Wada

Onoe

2015

Advanced Powder Technology

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“…Because this method does not require thermal energy and can suppress supersaturation fluctuations by limiting the crystal precipitation field to the liquid-liquid interface, it could be applied to a wide range of materials. We have controlled crystal morphology by changing parameters such as organic solvent species, contact time, and solute concentration [18][19][20], and we have prepared composite particles from multicomponent solutions [21]. Therefore, this method may be suitable for producing particles instead of crystallization methods such as evaporation, cooling, and anti-solvent addition.…”

Section: Introductionmentioning

confidence: 99%

Mutual diffusion diagram of liquid-liquid interfaces for morphological control of NaCl crystals

Deki

Kadota

Tozuka

et al. 2016

Journal of Molecular Liquids

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Morphology control of amino acid particles in interfacial crystallization using inkjet nozzle

Cited by 32 publications

References 23 publications

Crystallization Behavior of Glycine Molecules with Electrolytic Dissociation on Charged Silica Gel Particles

Crystallization Behavior of Glycine Molecules with Electrolytic Dissociation on Charged Silica Gel Particles

Change in glycine polymorphs induced by minute-bubble injection during antisolvent crystallisation

Mutual diffusion diagram of liquid-liquid interfaces for morphological control of NaCl crystals

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